Your search keyword '"Riazuddin, Saima"' showing total 7 results

1. Identification and clinical characterization of Hermansky-Pudlak syndrome alleles in the Pakistani population.

Author

Yousaf, Sairah, Shahzad, Mohsin, Kausar, Tasleem, Sheikh, Shakeel A., Tariq, Nabeela, Shabbir, Asra S., Ali, Muhammad, Waryah, Ali M., Shaikh, Rehan S., Riazuddin, Saima, and Ahmed, Zubair M.

Subjects

HERMANSKY-Pudlak syndrome, GENES, ALLELES, COMPUTED tomography, GENOTYPES

Abstract

The article reports 7 pathogenic variants in five Hermansky-Pudlak syndrome (HPS) genes segregating with the phenotype in seven large consanguineous Pakistani families using whole-exome sequencing (WES). Detailed hematological examinations and chest computerized tomography (CT) scans were performed on the affective individuals. Data suggests a genotype-phenotype correlation where the missense alleles are hypomorphic and associated with a milder phenotype.

Published

2016

2. Increasing the complexity: new genes and new types of albinism.

Author

Montoliu, Lluís, Grønskov, Karen, Wei, Ai ‐ Hua, Martínez ‐ García, Mónica, Fernández, Almudena, Arveiler, Benoît, Morice ‐ Picard, Fanny, Riazuddin, Saima, Suzuki, Tamio, Ahmed, Zubair M., Rosenberg, Thomas, and Li, Wei

Subjects

ALBINOS & albinism, GENETIC disorders, HYPOPIGMENTATION, PHENOTYPES, EYE diseases, CHROMOSOMES, CHROMATOPHORES

Abstract

Albinism is a rare genetic condition globally characterized by a number of specific deficits in the visual system, resulting in poor vision, in association with a variable hypopigmentation phenotype. This lack or reduction in pigment might affect the eyes, skin, and hair (oculocutaneous albinism, OCA), or only the eyes (ocular albinism, OA). In addition, there are several syndromic forms of albinism (e.g. Hermansky-Pudlak and Chediak-Higashi syndromes, HPS and CHS, respectively) in which the described hypopigmented and visual phenotypes coexist with more severe pathological alterations. Recently, a locus has been mapped to the 4q24 human chromosomal region and thus represents an additional genetic cause of OCA, termed OCA5, while the gene is eventually identified. In addition, two new genes have been identified as causing OCA when mutated: SLC24A5 and C10orf11, and hence designated as OCA6 and OCA7, respectively. This consensus review, involving all laboratories that have reported these new genes, aims to update and agree upon the current gene nomenclature and types of albinism, while providing additional insights from the function of these new genes in pigment cells. [ABSTRACT FROM AUTHOR]

Published

2014

3. Molecular genetic studies and delineation of the oculocutaneous albinism phenotype in the Pakistani population.

Author

Jaworek, Thomas J., Kausar, Tasleem, Bell, Shannon M., Tariq, Nabeela, Imran Maqsood, Muhammad, Sohail, Asma, Ali, Muhmmmad, Iqbal, Furhan, Rasool, Shafqat, Riazuddin, Saima, Shaikh, Rehan S., and Ahmed, Zubair M.

Subjects

ALBINOS & albinism, ENDOPLASMIC reticulum, EYE diseases, GENES, EPITHELIAL cells

Abstract

Background: Oculocutaneous albinism (OCA) is caused by a group of genetically heterogeneous inherited defects that result in the loss of pigmentation in the eyes, skin and hair. Mutations in the TYR, OCA2, TYRP1 and SLC45A2 genes have been shown to cause isolated OCA. No comprehensive analysis has been conducted to study the spectrum of OCA alleles prevailing in Pakistani albino populations. Methods: We enrolled 40 large Pakistani families and screened them for OCA genes and a candidate gene, SLC24A5. Protein function effects were evaluated using in silico prediction algorithms and ex vivo studies in human melanocytes. The effects of splice-site mutations were determined using an exon-trapping assay. Results: Screening of the TYR gene revealed four known (p.Arg299His, p.Pro406Leu, p.Gly419Arg, p.Arg278*) and three novel mutations (p.Pro21Leu, p.Cys35Arg, p.Tyr411His) in ten families. Ex vivo studies revealed the retention of an EGFP-tagged mutant (p.Pro21Leu, p.Cys35Arg or p.Tyr411His) tyrosinase in the endoplasmic reticulum (ER) at37°C, but a significant fraction of p.Cys35Arg and p.Tyr411His left the ER in cells grown at a permissive temperature (31°C). Three novel (p.Asp486Tyr, p.Leu527Arg, c.1045-15 T > G) and two known mutations (p.Pro743Leu, p. Ala787Thr) of OCA2 were found in fourteen families. Exon-trapping assays with a construct containing a novel c.1045-15 T > G mutation revealed an error in splicing. No mutation in TYRP1, SLC45A2, and SLC24A5 was found in the remaining 16 families. Clinical evaluation of the families segregating either TYR or OCA2 mutations showed nystagmus, photophobia, and loss of pigmentation in the skin or hair follicles. Most of the affected individuals had grayish-blue colored eyes. Conclusions: Our results show that ten and fourteen families harbored mutations in the TYR and OCA2 genes, respectively. Our findings, along with the results of previous studies, indicate that the p.Cys35Arg, p.Arg278* and p.Gly419Arg alleles of TYR and the p.Asp486Tyr and c.1045-15 T > G alleles of OCA2 are the most common causes of OCA in Pakistani families. To the best of our knowledge, this study represents the first documentation of OCA2 alleles in the Pakistani population. A significant proportion of our cohort did not have mutations in known OCA genes. Overall, our study contributes to the development of genetic testing protocols and genetic counseling for OCA in Pakistani families. [ABSTRACT FROM AUTHOR]

Published

2012

4. Mutations of LRTOMT, a fusion gene with alternative reading frames, cause nonsyndromic deafness in humans.

Author

Ahmed, Zubair M, Masmoudi, Saber, Kalay, Ersan, Belyantseva, Inna A, Mosrati, Mohamed Ali, Collin, Rob W J, Riazuddin, Saima, Hmani-Aifa, Mounira, Venselaar, Hanka, Kawar, Mayya N, Tlili, Abdelaziz, van der Zwaag, Bert, Khan, Shahid Y, Ayadi, Leila, Riazuddin, S Amer, Morell, Robert J, Griffith, Andrew J, Charfedine, Ilhem, Çaylan, Refik, and Oostrik, Jaap

Subjects

GENETIC mutation, GENES, DEAFNESS, WESTERN immunoblotting, LABORATORY rodents

Abstract

Many proteins necessary for sound transduction have been identified through positional cloning of genes that cause deafness. We report here that mutations of LRTOMT are associated with profound nonsyndromic hearing loss at the DFNB63 locus on human chromosome 11q13.3–q13.4. LRTOMT has two alternative reading frames and encodes two different proteins, LRTOMT1 and LRTOMT2, detected by protein blot analyses. LRTOMT2 is a putative methyltransferase. During evolution, new transcripts can arise through partial or complete coalescence of genes. We provide evidence that in the primate lineage LRTOMT evolved from the fusion of two neighboring ancestral genes, which exist as separate genes (Lrrc51 and Tomt) in rodents. [ABSTRACT FROM AUTHOR]

Published

2008

5. Mutations in TRIOBP, Which Encodes a Putative Cytoskeletal-Organizing Protein, Are Associated with Nonsyndromic Recessive Deafness.

Author

Riazuddin, Saima, Khan, Shaheen N., Ahmed, Zubair M., Ghosh, Manju, Caution, Kyle, Nazli, Sabiha, Kabra, Madhulika, Zafar, Ahmad U., Kevin Chen, Naz, Sadaf, Antonellis, Anthony, Pavan, William J., Green, Eric D., Wilcox, Edward R., Friedman, Penelope L., Morell, Robert J., Riazuddin, Sheikh, and Friedman, Thomas B.

Subjects

*DEAFNESS, *CHROMOSOMES, *GENES, *COMMUNICATIVE disorders, *GENETICS, *EAR diseases

Abstract

In seven families, six different mutant alleles of TRIOBP on chromosome 22q13 cosegregate with autosomal recessive nonsyndromic deafness. These alleles include four nonsense (Q297X, R788X, R1068X, and R1117X) and two frameshift (D1069fsX1082 and R1078fsX1083) mutations, all located in exon 6 of TRIOBP. There are several alternative splice isoforms of this gene, the longest of which, TRIOBP-6, comprises 23 exons. The linkage interval for the deafness segregating in these families includes DFNB2S. Genetic heterogeneity at this locus is suggested by three additional families that show significant evidence of linkage of deafness to markers on chromosome 22q13 but that apparently have no mutations in the TRIOBP gene. [ABSTRACT FROM AUTHOR]

Published

2006

6. DFNB48, a new nonsyndromic recessive deafness locus, maps to chromosome 15q23-q25.1.

Author

Ahmad, Jamil, Khan, Shaheen, Khan, Shahid, Ramzan, Khushnooda, Riazuddin, Saima, Ahmed, Zubair, Wilcox, Edward, Friedman, Thomas, and Riazuddin, Sheikh

Subjects

GENETICS of deafness, EAR diseases, DEAFNESS, HUMAN chromosomes, HUMAN gene mapping, GENES

Abstract

Nonsyndromic deafness locus (DFNB48) segregating as an autosomal recessive trait has been mapped to the long arm of chromosome 15 in bands q23-q25.1 in five large Pakistani families. The deafness phenotype in one of these five families (PKDF245) is linked to D15S1005 with a lod score of 8.6 at ?=0, and there is a critical linkage interval of approximately 7 cM on the Marshfield human genetic map, bounded by microsatellite markers D15S216 (70.73 cM) and D15S1041 (77.69 cM).MYO9A,NR2E3,BBS4, andTMC3are among the candidate genes in theDFNB48region. The identification of another novel nonsyndromic recessive deafness locus demonstrates the high degree of locus heterogeneity for hearing impairment, particularly in the Pakistani population. [ABSTRACT FROM AUTHOR]

Published

2005

7. Dominant and recessive deafness caused by mutations of a novel gene, TMC1, required for cochlear hair-cell function.

Author

Kurima, Kiyoto, Peters, Linda M., Yang, Yandan, Riazuddin, Saima, Ahmed, Zubair M., Naz, Sadaf, Arnaud, Deidre, Drury, Stacy, Mo, Jianhong, Makishima, Tomoko, Ghosh, Manju, Menon, P.S.N., Deshmukh, Dilip, Oddoux, Carole, Ostrer, Harry, Khan, Shaheen, Riazuddin, Sheikh, Deininger, Prescott L., and Hampton, Lori L.

Subjects

GENETICS of deafness, GENES, GENETIC disorders, MICE

Abstract

Positional cloning of hereditary deafness genes is a direct approach to identify molecules and mechanisms underlying auditory function. Here we report a locus for dominant deafness, DFNA36, which maps to human chromosome 9q13-21 in a region overlapping the DFNB7/B11 locus for recessive deafness. We identified eight mutations in a new gene, transmembrane cochlear-expressed gene 1 (TMC1), in a DFNA36 family and eleven DFNB7/B11 families. We detected a 1.6-kb genomic deletion encompassing exon 14 of Tmc1 in the recessive deafness (dn) mouse mutant, which lacks auditory responses and has hair-cell degeneration. TMC1 and TMC2 on chromosome 20p13 are members of a gene family predicted to encode transmembrane proteins. Tmc1 mRNA is expressed in hair cells of the postnatal mouse cochlea and vestibular end organs and is required for normal function of cochlear hair cells. [ABSTRACT FROM AUTHOR]

Published

2002