In the human genome, point variations are most common (Nachman & Crowell, 2000) and well understood. These variations, when existing in more than 1% of the population, is referred to as
Single Nucleotide Polymorphism (SNP) and can fall in the coding region of a gene, non coding region or intergenic regions.
The splicing of the pre-mRNA is one of the most essential and one of the several processes that characterized the exponential enrichment of proteomic diversity in higher eukaryotic organisms (Black, 2000, Graveley, 2001). For the splicing process, the introns must be removed and this is accurately carried out by an assembly of spliceosome
Genome Wide Association (GWA) Studies of complex diseases represents a new paradigm in the
post-genomic era. Since then, the eld of human genetics has been revolutionized by the GWA Studies approach (Yang and Hibberd 2009). Adding to this, the completion of human genome sequence had enabled a systemic identi cation of genetic loci that determines
the etiology of complex diseases.
Orofacial clefts are one of the most common congenital malformations among newborns. The two main types of oral clefts are cleft lip with or without cleft (CLP) and cleft palate alone (CP). Cleft is an abnormal ssure in an anatomical structure that is normally fused. Cleft lip is the congenital failure of the maxillary and medial nasal processes to fuse, forming a ssure in the lip. Cleft palate is the congenital failure of the palate to fuse properly, forming a ssure in the roof of the mouth (Mossey, 2009).clefts are one of the most common congenital malformations among newborns. The two main types of oral clefts are cleft lip with or without cleft (CLP) and cleft palate alone (CP). Cleft is an abnormal ssure in an anatomical structure that is normally fused. Cleft lip is the congenital failure of the maxillary and medial nasal processes to fuse, forming a ssure in the lip. Cleft palate is the congenital failure of the palate to fuse properly, forming a ssure in the roof of the mouth (Mossey, 2009).
This study aims to define the prevalence and the molecular basis of G6PD deficiency in the Negrito tribe of the Malaysian Orang Asli. Four hundred and eighty seven consenting Negrito volunteers were screened for G6PD deficiency through the use of a fluorescent spot test. DNA from deficient individuals underwent PCR-RFLP analysis using thirteen recognized G6PD mutations. In the instances when the mutation could not be identified by PCR-RFLP, the entire coding region of the G6PD gene was subjected to DNA sequencing. In total, 9% (44/486) of the sample were found to be G6PD-deficient. However, only 25 samples were subjected to PCR-RFLP and DNA sequencing. Of these, three were found to carry Viangchan, one Coimbra and 16, a combination of C1311T in exon 11 and IVS11 T93C. Mutation(s) for the five remaining samples are unknown. The mean G6PD enzyme activity ranged 5.7 IU/gHb in deficient individuals. Our results demonstrate that the frequency of G6PD deficiency is higher among the Negrito Orang Asli than other Malaysian races. The dual presence of C1311T and IVS11 T93C in 64% of the deficient individuals (16/44) could well be a result of genetic drift within this isolated group.
Fifty years have elapsed since the discovery of the number of human chromosomes in 1956. Newer techniques have been developed since then, ranging from the initial conventional banding techniques to the currently used molecular array comparative genomic hybridisation. With a combination of these conventional and molecular techniques, cytogenetics has become an indispensable tool for the diagnosis of various genetic disorders, paving the way for possible treatment and management. This paper traces the history and evolution of cytogenetics leading up to the current state of technology.
Complete trisomy 9 is a lethal diagnosis and most fetuses diagnosed thus die prenatally or during the early postnatal period and majority of such cases have been known to end in spontaneous abortion in the first trimester itself. One such rare survival of fetus ending in normal delivery and surviving until 20 days is reported here detailing the clinical manifestations of the child during the period of survival. The salient clinical features observed were small face, wide fontanel, prominent occiput, micrognathia, low set ears, upslanting palpebral fissures, high arched palate, short sternum, overlapping fingers, limited hip abduction, rocker bottom feet, heart murmurs and also webbed neck, characteristic of this trisomy 9 syndrome.
Long QT syndrome (LQTS) is predominantly a genetic cardiac arrhythmia disorder. We report here our study on long QT syndrome from two children from Kelantan, Malaysia. Clinical and genetic findings of these two unrelated Malay children with LQTS is discussed. We found a Long QT, type 1 causal mutation, p.Ile567Thr in the KCNQ1 gene in the first child. A pathogenic mutation could not be detected in the second child, explaining the heterogeneity of this disease.
Down Syndrome (DS), is a complex genetic disease resulting from the presence of 3 copies of chromosome 21. It is the most common autosomal abnormality among live births and the most commonly recognized genetic cause of mental retardation. The only well established risk factor for DS is advanced maternal age. The Human Genome Center , University Sains Malaysia, Kelantan has been carrying out cytogenetic studies in DS patients. Here we, report the karyotype pattern of Down Syndrome patients in correlation with maternal age, among referral cases to our Center.
Patients with isochromosome 18q, a rare cytogenetic abnormality, also reported as Edwards syndrome, is the second most common autosomal trisomy. However, the phenotypic features and survival of these patients are not uniform and depend upon the portion of chromosomes getting duplicated or deleted. The survival of these children may be longer, hence a good cytogenetic diagnosis is a must. Morphological characteristics of isochromosome 18q are not yet fully delineated because of the rarity of the cases and as most cases are aborted medically or terminate spontaneously. We report two cases of isochromosome 18q, one male aged two years old and the other a male aged eight months old, and review the literature on this rare syndrome.
Non-syndromic oral clefts share the main clinical features of Van der Woude Syndrome (VWS), with the exception of the lower lip pit. Thus, about 15% of VWS cases are indistinguishable from cases with non-syndromic oral clefts. IRF6 mutations are the major cause of VWS; however, variants in this gene show strong association with non-syndromic oral clefts, with a higher increased risk among cases with cleft lip only (CLO). A total of 39 individuals, including 16 patients with CLO and 23 patients with a family history of cleft, were examined for IRF6 mutations in the present study. Seven variants, including five known (c.-75-4 A>; G, c.-73T>; C, c.459G>; T 5, c.820G>; A, and c.1060 + 37C>; T) and two novel (c.-75-23G>; C and c.1380G>; T), were found. Both novel variants were inherited from non-affected parents and we did not find also in the 120 control chromosomes. In silico analysis revealed that both c.1380G>; T and c.-75-23G>; C variants may disrupts a putative exonic splicing enhancer and intronic splicing binding site for SC35, respectively. Taken together, the presence of deleterious IRF6 variants in patients with non-syndromic oral clefts could be most likely an evidence for VWS. While, IRF6 variants could, at best, contribute to clefting as part of a complex inheritance pattern, with both additional genes and environmental factors having a role.
Oral clefts are clinically and genetically heterogeneous disorders that are influenced by both genetic and environmental factors. The present family-based association study investigated the role of the MSX1 and TGFB3 genes in the etiology of non-syndromic oral cleft in a Malay population. No transmission distortion was found in the transmission disequilibrium analysis for either MSX1-CA or TGFB3-CA intragenic markers, whereas TGFB3-CA exhibited a trend to excess maternal transmission. In sequencing the MSX1 coding regions in 124 patients with oral cleft, five variants were found, including three known variants (A34G, G110G and P147Q) and two novel variants (M37L and G267A). The P147Q and M37L variants were not observed in 200 control chromosomes, whereas G267A was found in one control sample, indicating a very rare polymorphic variant. Furthermore, the G110G variant displayed a significant association between patients with non-syndromic cleft lip, with or without cleft palate, and normal controls (P=0.001, odds ratio=2.241, 95% confidence interval, 1.357-3.700). Therefore, these genetic variants may contribute, along with other genetic and environmental factors, to this condition.
Several studies have shown evidence for the contribution of interferon regulatory factor 6 (IRF6) variants to the risk of nonsyndromic oral clefts in Asians; however, this has not included the Malay population. The current study attempts to address this research gap using allele and haplotype transmission disequilibrium analyses. The results showed a strong transmission distortion for multiple haplotypes to patients with nonsyndromic cleft lip with or without cleft palate. Haplotypes carrying the 243 bp allele of D1S2136 and common alleles at the rs861019 and rs2235371 were over-transmitted to patients. By contrast, haplotypes consisting of the 251 bp allele of D1S2136 and the rare allele at rs2235371 were more under-transmitted. Furthermore, several variants and haplotypes showed excess maternal transmission, but none of them attained statistical significance in maternal relative risk analyses. In contrast, a significant child genotype effect was observed for several haplotypes, indicating fetal genotype could be the major genetic contribution rather than maternal genotype. The present study therefore further supports a role for IRF6 variants in clefting in this Southeast Asian population. Overall, Asian genetic backgrounds are most likely more susceptible to the haploinsufficiency of IRF6 variants. These variants may contribute to the condition either themselves, or they may be in linkage disequilibrium with other casual variants.
We describe a chromosome 6 uniparental disomy (UPD6) in a boy, discovered during a screening for the genetic cause of cleft lip and palate. In the medical literature, almost all documented cases of UPD6 are paternal in origin, and only four were maternal. We present here a report of complete maternal chromosome 6 uniparental heterodisomy. Haplotype analysis was performed using highly polymorphic short tandem repeat (STR) markers that span both arms of chromosome 6. Analysis of these markers revealed the presence of two maternal alleles but no paternal allele, indicating an instance of maternal uniparental heterodisomy. Chromosome analysis of peripheral blood lymphocytes confirmed a normal male karyotype. Advanced maternal age at the time of the infant's birth and heterodisomy of markers around the centromere favors a meiosis-I error. No specific phenotype has been reported for maternal UPD6. Therefore, the cleft lip and palate in the present case probably occurred due to other risk factors. This report provides further evidence that maternal UPD6 has no specific clinical consequences and adds to the collective knowledge of this rare chromosomal finding.
The authors suggest a simplification for the current molecular genetic testing of spinal muscular atrophy (SMA). Deletion analysis of SMN1 exon 7 alone may be necessary and sufficient for the diagnosis of SMA. It is based on sole contribution of survival motor neuron 1 (SMN1) exon 7 to SMA pathogenesis.
BACKGROUND: Cardiovascular diseases are complex diseases that are influenced by both environmental and genetic factors. CYP2D6 found in the brain and the heart is involved in the metabolism of many environmental and some endogenous substances and neurotransmitters responsible for maintaining homeostasis. This raises an interesting hypothesis that it may have a role in the development of or protection against cardiovascular diseases.
OBJECTIVE: To study the distribution of genotypes of CYP2D6 among patients with cardiovascular diseases in Malaysia.
METHOD:We obtained DNA from 128 patients who were followed up for cardiovascular diseases. Polymerase chain reaction-based methods were used to determine common CYP2D6 alleles.
RESULTS: One hundred and twenty-eight patients were enrolled. Most of the patients also had concurrent illnesses. Eleven genotypes were identified in the patients and 41% carried CYP2D6*1/*10. The second most common genotype was homozygous for the wild type gene, followed by homozygous CYP2D6*10/*10 at 14.48 %. A small percentage of the patients were heterozygous CYP2D6*1/*4. One patient was genotyped homozygous CYP2D6*4/*4 predicting a poor metabolizer prevalence of 0.78% (95% CI +/- 1.52%). Analysis using Hardy-Weinberg equilibrium showed that all of the gnotypes were consistent with equilibrium except for CYP2D6*1/*10 (chi(2); P < 0.05).
CONCLUSION: Our study suggests a possible involvement of CYP2D6 genotypes in cardiovascular system diseases, which need to be validated by further studies.
Familial ligand-defective apolipoprotein B-100 is characterized by elevated plasma low-density lipoprotein levels and premature heart disease. This study aims to determine apolipoprotein B gene mutations among Malaysians with clinical diagnoses of familial hypercholesterolemia and to compare the phenotype of patients with apolipoprotein B gene mutations to those with a low-density lipoprotein receptor gene mutation. A group of 164 patients with a clinical diagnosis of familial hypercholesterolemia was analyzed. Amplicons in exon 26 and exon 29 of the apolipoprotein B gene were screened for genetic variants using denaturing gradient high-performance liquid chromatography; 10 variants were identified. Five novel mutations were detected (p.Gln2485Arg, p.Thr3526Ala, p.Glu3666Lys, p.Tyr4343CysfsX221, and p.Arg4297His). Those with familial defective apolipoprotein had a less severe phenotype than those with familial hypercholesterolemia. An apolipoprotein gene defect is present among Malaysian familial hypercholesterolemics. Those with both mutations show a more severe phenotype than those with one gene defect.
We report two cases of deletion 5p or cri du chat syndrome (CdCS) with different presentations and risks of transmission: one case with paternal chromosome 5 involvement and another, a de novo case with atypical clinical presentation. Cytogenetic analysis was performed on the two cases and their parents. GTG-banded karyotype analysis of Cases 1 and 2 revealed abnormal 46,XY,del(5)(p13-15) male karyotypes. For Case 1, the mother showed normal female karyotype while the father showed an abnormal karyotype involving a balanced translocation 46,XY,t(5;10)(p13;p15). For Case 2, however, both parents showed a normal karyotype pattern. In Case 1, the clinical features, particularly the distinct facial phenotype in combination with a characteristic cat-like cry and hypotonia, aided in the diagnosis at birth and the karyotype analysis was resolutive. The boy in Case 2 presented with atypical clinical features. Even though this patient had multiple syndromic features, the typical high pitched cat-like cry was not prominent. Instead, the patient manifested persistent stridor (from day three of life), which might have prevented the clinician from suspecting CdCS at birth. However, when this patient was presented at seven months of age for cytogenetic analysis, a confirmatory diagnosis of CdCS was established. For children with congenital abnormalities, an early clinical diagnosis confirmed through cytogenetic and molecular investigations, is important for providing personalised diagnostic and prognostic evaluation, and also for genetic counselling on the reproductive risk, particularly for patients with parental chromosome translocation involvement.
Down syndrome was first described as Mongoloid children with European parentage. Although their facial features resemble Orientals or Asians, ocular findings have not been well-documented in Asians, especially Malaysians. Our aim was to identify the ocular findings of Malaysian children with Down syndrome.
The Cornelia de Lange syndrome is a multiple congenital anomaly syndrome characterised by dysmorphic facial features, hirsutism, severe growth and developmental delays, and malformed upper limbs. The prevalence is estimated to be one per 10,000. Recently, several independent groups proved that Cornelia de Lange syndrome is caused by mutations in the NIPBL gene, the human homologue of the Drosophila Nipped-B gene. Here, we present the first clinical case report of a Malay child, a 9-year-old boy with the Cornelia de Lange syndrome. We also report the molecular investigation of the NIPBL gene in this patient.