Your search keyword '"Marquis-Nicholson R"' showing total 20 results

1. SNP Analysis and Whole Exome Sequencing: Their Application in the Analysis of a Consanguineous Pedigree Segregating Ataxia.

Author

Nickerson, SL, Marquis-Nicholson, R, Claxton, K, Ashton, F, Leong, IUS, Prosser, DO, Love, JM, George, AM, Taylor, G, Wilson, C, Gardner, RJM, Love, DR, Nickerson, SL, Marquis-Nicholson, R, Claxton, K, Ashton, F, Leong, IUS, Prosser, DO, Love, JM, George, AM, Taylor, G, Wilson, C, Gardner, RJM, and Love, DR

Abstract

Autosomal recessive cerebellar ataxia encompasses a large and heterogeneous group of neurodegenerative disorders. We employed single nucleotide polymorphism (SNP) analysis and whole exome sequencing to investigate a consanguineous Maori pedigree segregating ataxia. We identified a novel mutation in exon 10 of the SACS gene: c.7962T>G p.(Tyr2654*), establishing the diagnosis of autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS). Our findings expand both the genetic and phenotypic spectrum of this rare disorder, and highlight the value of high-density SNP analysis and whole exome sequencing as powerful and cost-effective tools in the diagnosis of genetically heterogeneous disorders such as the hereditary ataxias.

Published

2015

2. The p.Ala510Val mutation in the SPG7 (paraplegin) gene is the most common mutation causing adult onset neurogenetic disease in patients of British ancestry

Author

Roxburgh, R.H., Marquis-Nicholson, R., Ashton, F., George, A.M., Lea, R.A., Eccles, D., Mossman, S., Bird, T., Gassen, K.L.I. van, Kamsteeg, E.J., Love, D.R., Roxburgh, R.H., Marquis-Nicholson, R., Ashton, F., George, A.M., Lea, R.A., Eccles, D., Mossman, S., Bird, T., Gassen, K.L.I. van, Kamsteeg, E.J., and Love, D.R.

Abstract

Item does not contain fulltext, The c.1529C >T change in the SPG7 gene, encoding the mutant p.Ala510Val paraplegin protein, was first described as a polymorphism in 1998. This was based on its frequency of 3 % and 4 % in two separate surveys of controls in the United Kingdom (UK) population. Subsequently, it has been found to co-segregate with disease in a number of different populations. Yeast expression studies support its having a deleterious effect. In this paper a consanguineous sibship is described in which four members who are homozygous for the p.Ala510Val variant present with a spectrum of disease. This spectrum encompasses moderately severe hereditary spastic paraparesis (HSP) with more minor ataxia in two siblings, moderately severe ataxia without spasticity in the third, and a very mild gait ataxia in the fourth. Two of the siblings also manifest vestibular failure. The remaining eight unaffected siblings are either heterozygous for the p.Ala510Val variant, or do not carry it at all. Homozygosity mapping using a high-density SNP array across the whole genome found just 11 genes (on two regions of chromosome 3) outside the SPG7 region on chromosome 16, which were homozygously shared by the affected siblings, but not shared by the unaffected siblings; none of them are likely to be causative. The weight of evidence is strongly in favour of the p.Ala510Val variant being a disease-causing mutation. We present additional data from the Auckland City Hospital neurogenetics clinic to show that the p.Ala510Val mutation is prevalent amongst HSP patients of UK extraction belying any suggestion that European p.Ala510Val haplotypes harbour a disease-causing mutation which the UK p.Ala510Val haplotypes do not. Taken together with previous findings of a carrier frequency of 3-4 % in the UK population (giving a homozygosity rate of 20-40/100,000), the data imply that the p.Ala510Val is the most common mutation causing neurogenetic disease in adults of UK ancestry, albeit the penetrance may be low or th

Published

2013

3. G.P.46 Screening for deletion and duplication mutations in genes implicated in LGMD

Author

Roxburgh, R.H., primary, Marquis-Nicholson, R., additional, Hutchinson, D.O., additional, Waddell, L.B., additional, Clarke, N.F., additional, North, K.N., additional, and Love, D.R., additional

Published

2012

4. Chromosome microarray analysis in a clinical environment: new perspective and new challenge

Author

George, A., primary, Marquis-Nicholson, R., additional, Zhang, L. T., additional, Love, J. M., additional, Ashton, F., additional, Aftimos, S., additional, Hayes, I., additional, Williams, L. C., additional, and Love, D. R., additional

Published

2011

5. Short Communication Citrullinemia type I: molecular screening of the ASS1 gene by exonic sequencing and targeted mutation analysis

Author

Marquis-Nicholson, R., primary, Glamuzina, E., additional, Prosser, D., additional, Wilson, C., additional, and Love, D.R., additional

Published

2010

6. SNP Analysis and Whole Exome Sequencing: Their Application in the Analysis of a Consanguineous Pedigree Segregating Ataxia.

Author

Nickerson SL, Marquis-Nicholson R, Claxton K, Ashton F, Leong IU, Prosser DO, Love JM, George AM, Taylor G, Wilson C, Gardner RJ, and Love DR

Abstract

Autosomal recessive cerebellar ataxia encompasses a large and heterogeneous group of neurodegenerative disorders. We employed single nucleotide polymorphism (SNP) analysis and whole exome sequencing to investigate a consanguineous Maori pedigree segregating ataxia. We identified a novel mutation in exon 10 of the SACS gene: c.7962T>G p.(Tyr2654*), establishing the diagnosis of autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS). Our findings expand both the genetic and phenotypic spectrum of this rare disorder, and highlight the value of high-density SNP analysis and whole exome sequencing as powerful and cost-effective tools in the diagnosis of genetically heterogeneous disorders such as the hereditary ataxias.

Published

2015

7. AmpliVar: mutation detection in high-throughput sequence from amplicon-based libraries.

Author

Hsu AL, Kondrashova O, Lunke S, Love CJ, Meldrum C, Marquis-Nicholson R, Corboy G, Pham K, Wakefield M, Waring PM, and Taylor GR

Subjects

Computational Biology methods, Gene Library, Genetic Variation, Genotyping Techniques, High-Throughput Nucleotide Sequencing, Humans, Internet, Mutation, Nucleic Acid Amplification Techniques, DNA Mutational Analysis methods, Genomics methods, Software

Abstract

Conventional means of identifying variants in high-throughput sequencing align each read against a reference sequence, and then call variants at each position. Here, we demonstrate an orthogonal means of identifying sequence variation by grouping the reads as amplicons prior to any alignment. We used AmpliVar to make key-value hashes of sequence reads and group reads as individual amplicons using a table of flanking sequences. Low-abundance reads were removed according to a selectable threshold, and reads above this threshold were aligned as groups, rather than as individual reads, permitting the use of sensitive alignment tools. We show that this approach is more sensitive, more specific, and more computationally efficient than comparable methods for the analysis of amplicon-based high-throughput sequencing data. The method can be extended to enable alignment-free confirmation of variants seen in hybridization capture target-enrichment data., (© 2015 WILEY PERIODICALS, INC.)

Published

2015

8. Array comparative genomic hybridization identifies a heterozygous deletion of the entire KCNJ2 gene as a cause of sudden cardiac death.

Author

Marquis-Nicholson R, Prosser DO, Love JM, Zhang L, Hayes I, George AM, Crawford JR, Skinner JR, and Love DR

Subjects

Adult, Chromosomes, Human, Pair 17, Comparative Genomic Hybridization, Electrocardiography, Female, Gene Deletion, Heterozygote, Humans, In Situ Hybridization, Fluorescence, Long QT Syndrome pathology, Potassium Channels, Inwardly Rectifying metabolism, Retrospective Studies, Death, Sudden, Cardiac etiology, Long QT Syndrome genetics, Potassium Channels, Inwardly Rectifying genetics

Abstract

Background: Large gene rearrangements, not detectable by standard molecular genetic sequencing techniques, are present in a minority of patients with long QT syndrome. We aimed to screen for large rearrangements in genes responsible for long QT syndrome as part of the molecular autopsy of a 36-year-old woman who died suddenly and had a negative autopsy. A retrospective analysis of an ECG identified a long QT interval, but sequencing of known LQT genes was uninformative., Methods and Results: Array comparative genomic hybridization was used to screen for deletions and duplications in 101 genes implicated in cardiac disorders and sudden death using a postmortem blood sample. A 542 kb deletion encompassing the entire KCNJ2 gene was identified in the decedent. The mother had electrocardiographic U-wave changes consistent with Andersen-Tawil syndrome and exaggerated by exercise but none of the characteristic noncardiac features. Fluorescence in situ hybridization confirmed the deletion in the decedent and established its presence in the mother., Conclusions: A novel application of array comparative genomic hybridization and fluorescence in situ hybridization has identified that long QT syndrome and sudden cardiac death may occur as a result of a deletion of an entire gene. The case also supports recent research suggesting that noncardiac features of Andersen-Tawil syndrome occur only with missense or minor gene rearrangements in the KCNJ2 gene, resulting in a dominant negative effect on Kir2.x channels.

Published

2014

9. Diabetic Dead-in-Bed Syndrome: A Possible Link to a Cardiac Ion Channelopathy.

Author

Skinner JR, Marquis-Nicholson R, Luangpraseuth A, Cutfield R, Crawford J, and Love DR

Abstract

Sudden unexpected nocturnal death among patients with diabetes occurs approximately ten times more commonly than in the general population. Malignant ventricular arrhythmia due to Brugada syndrome has been postulated as a cause, since a glucose-insulin bolus can unmask the Brugada electrocardiographic signature in genetically predisposed individuals. In this report we present a 16-year-old male with insulin-dependent diabetes who died suddenly at night. His diabetes had been well controlled, without significant hypoglycaemia. At autopsy, he had a full stomach and a glucose level of 7 mmol/L in vitreous humor, excluding hypoglycaemia. Genetic analysis of autopsy DNA revealed a missense mutation, c.370A>G (p.Ile124Val), in the GPD1L gene. A parent carried the same mutation and has QT prolongation. Mutations in this gene have been linked to Brugada syndrome and sudden infant death. The patient may have died from a ventricular arrhythmia, secondary to occult Brugada syndrome, triggered by a full stomach and insulin. The data suggest that molecular autopsies are warranted to investigate other cases of the diabetic dead-in-bed syndrome.

Published

2014

10. The p.Ala510Val mutation in the SPG7 (paraplegin) gene is the most common mutation causing adult onset neurogenetic disease in patients of British ancestry.

Author

Roxburgh RH, Marquis-Nicholson R, Ashton F, George AM, Lea RA, Eccles D, Mossman S, Bird T, van Gassen KL, Kamsteeg EJ, and Love DR

Subjects

ATPases Associated with Diverse Cellular Activities, Adult, Age of Onset, Female, Genetic Testing, Genotype, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Pedigree, Spastic Paraplegia, Hereditary physiopathology, United Kingdom, Vestibular Diseases genetics, White People genetics, Alanine genetics, Genetic Predisposition to Disease genetics, Metalloendopeptidases genetics, Mutation genetics, Spastic Paraplegia, Hereditary genetics, Valine genetics

Abstract

The c.1529C >T change in the SPG7 gene, encoding the mutant p.Ala510Val paraplegin protein, was first described as a polymorphism in 1998. This was based on its frequency of 3 % and 4 % in two separate surveys of controls in the United Kingdom (UK) population. Subsequently, it has been found to co-segregate with disease in a number of different populations. Yeast expression studies support its having a deleterious effect. In this paper a consanguineous sibship is described in which four members who are homozygous for the p.Ala510Val variant present with a spectrum of disease. This spectrum encompasses moderately severe hereditary spastic paraparesis (HSP) with more minor ataxia in two siblings, moderately severe ataxia without spasticity in the third, and a very mild gait ataxia in the fourth. Two of the siblings also manifest vestibular failure. The remaining eight unaffected siblings are either heterozygous for the p.Ala510Val variant, or do not carry it at all. Homozygosity mapping using a high-density SNP array across the whole genome found just 11 genes (on two regions of chromosome 3) outside the SPG7 region on chromosome 16, which were homozygously shared by the affected siblings, but not shared by the unaffected siblings; none of them are likely to be causative. The weight of evidence is strongly in favour of the p.Ala510Val variant being a disease-causing mutation. We present additional data from the Auckland City Hospital neurogenetics clinic to show that the p.Ala510Val mutation is prevalent amongst HSP patients of UK extraction belying any suggestion that European p.Ala510Val haplotypes harbour a disease-causing mutation which the UK p.Ala510Val haplotypes do not. Taken together with previous findings of a carrier frequency of 3-4 % in the UK population (giving a homozygosity rate of 20-40/100,000), the data imply that the p.Ala510Val is the most common mutation causing neurogenetic disease in adults of UK ancestry, albeit the penetrance may be low or the disease caused may be mild.

Published

2013

11. Gene Dosage Analysis in a Clinical Environment: Gene-Targeted Microarrays as the Platform-of-Choice.

Author

Marquis-Nicholson R, Prosser D, Love JM, and Love DR

Abstract

The role of gene deletion and duplication in the aetiology of disease has become increasingly evident over the last decade. In addition to the classical deletion/duplication disorders diagnosed using molecular techniques, such as Duchenne Muscular Dystrophy and Charcot-Marie-Tooth Neuropathy Type 1A, the significance of partial or whole gene deletions in the pathogenesis of a large number single-gene disorders is becoming more apparent. A variety of dosage analysis methods are available to the diagnostic laboratory but the widespread application of many of these techniques is limited by the expense of the kits/reagents and restrictive targeting to a particular gene or portion of a gene. These limitations are particularly important in the context of a small diagnostic laboratory with modest sample throughput. We have developed a gene-targeted, custom-designed comparative genomic hybridisation (CGH) array that allows twelve clinical samples to be interrogated simultaneously for exonic deletions/duplications within any gene (or panel of genes) on the array. We report here on the use of the array in the analysis of a series of clinical samples processed by our laboratory over a twelve-month period. The array has proven itself to be robust, flexible and highly suited to the diagnostic environment.

Published

2013

12. Molecular Analysis of a Case of Thanatophoric Dysplasia Reveals Two de novo FGFR3 Missense Mutations located in cis.

Author

Marquis-Nicholson R, Aftimos S, and Love DR

Abstract

Objectives: Thanatophoric dysplasia (TD) is the most common form of lethal skeletal dysplasia. It is primarily an autosomal dominant disorder and is characterised by macrocephaly, a narrow thorax, short ribs, brachydactyly, and hypotonia. In addition to these core phenotypic features, TD type I involves micromelia with bowed femurs, while TD type II is characterised by micromelia with straight femurs and a moderate to severe clover-leaf deformity of the skull. Mutations in the FGFR3 gene are responsible for all cases of TD reported to date. The objective of the study here was to delineate further the mutational spectrum responsible for TD., Methods: Conventional polymerase chain reaction (PCR), allele-specific PCR, and sequence analysis were used to identify FGFR3 gene mutations in a fetus with a lethal skeletal dysplasia consistent with TD, which was detected during a routine antenatal ultrasound examination., Results: In this report we describe the identification of two de novo missense mutations in cis in the FGFR3 gene (p.Asn540Lys and p.Val555Met) in a fetus displaying phenotypic features consistent with TD., Conclusion: This is the second description of a case of TD occurring as a result of double missense FGFR3 gene mutations, suggesting that the spectrum of mutations involved in the pathogenesis of TD may be broader than previously recognised.

Published

2013

13. Array-based Identification of Copy Number Changes in a Diagnostic Setting: Simultaneous gene-focused and low resolution whole human genome analysis.

Author

Marquis-Nicholson R, Doherty E, Love JM, Lan CC, George AM, Thrush A, and Love DR

Abstract

Objectives: The aim of this study was to develop and validate a comparative genomic hybridisation (CGH) array that would allow simultaneous targeted analysis of a panel of disease genes and low resolution whole genome analysis., Methods: A bespoke Roche NimbleGen 12x135K CGH array (Roche NimbleGen Inc., Madison, Wisconsin, USA) was designed to interrogate the coding regions of 66 genes of interest, with additional widely-spaced backbone probes providing coverage across the whole genome. We analysed genomic deoxyribonucleic acid (DNA) from 20 patients with a range of previously characterised copy number changes and from 8 patients who had not previously undergone any form of dosage analysis., Results: The custom-designed Roche NimbleGen CGH array was able to detect known copy number changes in all 20 patients. A molecular diagnosis was also made for one of the additional 4 patients with a clinical diagnosis that had not been confirmed by sequence analysis, and carrier testing for familial copy number variants was successfully completed for the remaining four patients., Conclusion: The custom-designed CGH array described here is ideally suited for use in a small diagnostic laboratory. The method is robust, accurate, and cost-effective, and offers an ideal alternative to more conventional targeted assays such as multiplex ligation-dependent probe amplification.

Published

2013

14. A Streamlined Protocol for Molecular Testing of the DMD Gene within a Diagnostic Laboratory: A Combination of Array Comparative Genomic Hybridization and Bidirectional Sequence Analysis.

Author

Marquis-Nicholson R, Lai D, Lan CC, Love JM, and Love DR

Abstract

Purpose. The aim of this study was to develop a streamlined mutation screening protocol for the DMD gene in order to confirm a clinical diagnosis of Duchenne or Becker muscular dystrophy in affected males and to clarify the carrier status of female family members. Methods. Sequence analysis and array comparative genomic hybridization (aCGH) were used to identify mutations in the dystrophin DMD gene. We analysed genomic DNA from six individuals with a range of previously characterised mutations and from eight individuals who had not previously undergone any form of molecular analysis. Results. We successfully identified the known mutations in all six patients. A molecular diagnosis was also made in three of the four patients with a clinical diagnosis who had not undergone prior genetic screening, and testing for familial mutations was successfully completed for the remaining four patients. Conclusion. The mutation screening protocol described here meets best practice guidelines for molecular testing of the DMD gene in a diagnostic laboratory. The aCGH method is a superior alternative to more conventional assays such as multiplex ligation-dependent probe amplification (MLPA). The combination of aCGH and sequence analysis will detect mutations in 98% of patients with the Duchenne or Becker muscular dystrophy.

Published

2013

15. A novel 2.3 mb microduplication of 9q34.3 inserted into 19q13.4 in a patient with learning disabilities.

Author

Singh S, Ashton F, Marquis-Nicholson R, Love JM, Lan CC, Aftimos S, George AM, and Love DR

Abstract

Insertional translocations in which a duplicated region of one chromosome is inserted into another chromosome are very rare. We report a 16.5-year-old girl with a terminal duplication at 9q34.3 of paternal origin inserted into 19q13.4. Chromosomal analysis revealed the karyotype 46,XX,der(19)ins(19;9)(q13.4;q34.3q34.3)pat. Cytogenetic microarray analysis (CMA) identified a ~2.3Mb duplication of 9q34.3 → qter, which was confirmed by Fluorescence in situ hybridisation (FISH). The duplication at 9q34.3 is the smallest among the cases reported so far. The proband exhibits similar clinical features to those previously reported cases with larger duplication events.

Published

2012

16. Pseudotrisomy 13 syndrome: use of homozygosity mapping to target candidate genes.

Author

Marquis-Nicholson R, Aftimos S, Ashton F, Love JM, Stone P, McFarlane J, George AM, and Love DR

Subjects

Chromosome Mapping, Chromosomes, Human, Pair 13 genetics, Female, Fetal Macrosomia diagnosis, Genes, Recessive, Hand Deformities, Congenital diagnosis, Holoprosencephaly diagnosis, Homozygote, Humans, Karyotyping, Male, Oligonucleotide Array Sequence Analysis, Polydactyly diagnosis, Polymorphism, Single Nucleotide, Pregnancy, Trisomy diagnosis, Fetal Macrosomia genetics, Hand Deformities, Congenital genetics, Holoprosencephaly genetics, Polydactyly genetics, Trisomy genetics

Abstract

Pseudotrisomy 13 syndrome is characterised by holoprosencephaly with or without polydactyly, but with a normal karyotype. The genetic cause of this syndrome remains unclear, but it is thought to be autosomal recessive. In order to identify possible candidate genes, we identified regions of homozygosity in the DNA of an affected foetus, which was the seventh pregnancy of a healthy non-consanguineous Cook Island Maori couple; this ethnic group derives from a small founder population. Several large regions of homozygosity were identified using a high density array. We excluded two candidate genes that lay within these regions, and suggest that Pseudotrisomy 13 syndrome might not be monogenic and that a larger cohort of patients should be analysed using high density dosage/SNP arrays as well as whole exome sequencing in order to clarify the genetic underpinning of this rare syndrome., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

17. Citrullinaemia type I: a common mutation in the Pacific Island population.

Author

Glamuzina E, Marquis-Nicholson R, Knoll D, Love DR, and Wilson C

Subjects

Argininosuccinate Synthase genetics, Argininosuccinate Synthase isolation & purification, Citrulline blood, Citrullinemia genetics, Citrullinemia physiopathology, Founder Effect, Genetic Testing, Humans, Infant, Newborn, Male, Pacific Islands, Citrullinemia classification, Citrullinemia diagnosis, Mutation genetics

Abstract

Aim: The aim of this study was to develop and apply a mutation screening protocol for the ASS1 gene in order to confirm the diagnosis of citrullinaemia type I in neonates with elevated citrulline on expanded newborn screening (E-NBS)., Methods: Three patients with an elevated citrulline level were identified via routine E-NBS between January and October 2008. Analysis of the ASS1 gene using a polymerase chain reaction and sequencing-based method was successfully applied to all three patients, together with a rapid mutation-specific detection method. Their clinical progress was followed for 16-22 months., Results: All three patients were homozygous for a previously reported missense mutation, c.787G>A (p.Val263Met), associated with a mild or asymptomatic clinical course., Conclusions: As a consequence of E-NBS, an increasing number of neonates with elevated citrulline of uncertain clinical significance are being identified. Rapid sequence analysis of the ASS1 gene can be used to confirm citrullinaemia type I and, increasingly, to infer phenotypic severity. Homozygosity for the same mutation was found in all three patients despite non-consanguinity and variable Pacific Island origin. These data suggest that this mutation may be relatively prevalent in these ethnic groups and imply a possible founder effect., (© 2011 The Authors. Journal of Paediatrics and Child Health © 2011 Paediatrics and Child Health Division (Royal Australasian College of Physicians).)

Published

2011

18. Indolent medullary thyroid cancer with a RET proto-oncogene Cys618Phe mutation presenting as sporadic unilateral pheochromocytoma in a 55-year-old Korean woman.

Author

Kim DD, Croxson MS, Cranshaw IM, Evans JL, Marquis-Nicholson R, and Love DR

Subjects

Adrenal Gland Neoplasms genetics, Adrenal Gland Neoplasms surgery, Carcinoma, Neuroendocrine, Female, Humans, Middle Aged, Multiple Endocrine Neoplasia Type 2a complications, Pheochromocytoma surgery, Proto-Oncogene Mas, Thyroid Neoplasms genetics, Thyroid Neoplasms surgery, Thyroidectomy, Pheochromocytoma genetics, Proto-Oncogene Proteins c-ret genetics

Published

2011

19. Citrullinemia type I: molecular screening of the ASS1 gene by exonic sequencing and targeted mutation analysis.

Author

Marquis-Nicholson R, Glamuzina E, Prosser D, Wilson C, and Love DR

Subjects

Humans, Infant, Newborn, Polymerase Chain Reaction, Argininosuccinate Synthase genetics, Citrullinemia diagnosis, Citrullinemia genetics, DNA Mutational Analysis methods

Abstract

We developed a mutation-screening protocol for the ASS1 gene in order to guide clinical management of neonates with elevated citrulline detected during routine newborn screening. An exon-based amplification and sequencing method was designed and successfully applied to patients to identify disease-associated mutations. The sequencing-based method was applied to three patients with mild or asymptomatic clinical courses. Identification of a homozygous mutation in these patients, c.787G>A (p.Val263Met), led to the development of a tetra-primer ARMS-PCR method that successfully detected the mutation in DNA extracted from blood or from Guthrie card spots.

Published

2010

20. Array comparative genomic hybridisation: a new tool in the diagnostic genetic armoury.

Author

Marquis-Nicholson R, Aftimos S, Hayes I, George A, and Love DR

Subjects

Humans, Reproducibility of Results, Comparative Genomic Hybridization methods, DNA analysis, Genome, Human genetics, Human Genome Project organization & administration

Abstract

The traditional understanding of genetic disease, that, with the exception of aneuploidy, it is due primarily to single base pair changes or small deletions and duplications has been challenged over the last decade. This challenge has been spearheaded by increasing evidence of the frequency and significance of larger genomic rearrangements. It now appears that a substantial proportion of Mendelian conditions are caused by deletions and duplications that involve the copy number of one or more contiguous genes. It is becoming apparent too that de novo chromosomal events are much more frequent than spontaneous point mutations and that chromosomal rearrangement is likely to account for the vast majority of sporadic disease.

Published

2010