Your search keyword '"Allam, Rabab"' showing total 14 results

1. Variable expression pattern in Donnai-Barrow syndrome: Report of two novel LRP2 mutations and review of the literature

Author

Khalifa, Ola, Al-Sahlawi, Zahra, Imtiaz, Faiqa, Ramzan, Khushnooda, Allam, Rabab, Al-Mostafa, Abeer, Abdel-Fattah, Maaly, Abuharb, Gheid, Nester, Michael, Verloes, Alain, and Al-Zaidan, Hamad

Published

2015

2. SLC5A1 Mutations in Saudi Arabian Patients With Congenital Glucose-Galactose Malabsorption

Author

Al-Suyufi, Yasir, ALSaleem, Khalid, Al-Mehaidib, Ali, Banemai, Mohammed, Aldekhail, Wajeeh M., Al-Muhandes, Abdulhakim, Mohammed, Manal, Allam, Rabab, Jambi, Amani, Ramzan, Khushnooda, and Imtiaz, Faiqa

Published

2018

3. A recessive form of Marshall syndrome is caused by a mutation in the COL11A1 gene

Author

Khalifa, Ola, Imtiaz, Faiqa, Allam, Rabab, Al-Hassnan, Zuhair, Al-Hemidan, Amal, Al-Mane, Khalid, Abuharb, Gheid, Balobaid, Ameera, Sakati, Nadia, Hyland, James, and Al-Owain, Mohammed

Published

2012

4. Detoxifying Enzymatic Activity and Insecticide-Resistance Gene Expression in Field Populations of Pink Bollworm, (Pectinophora gossypiella (Saund.)).

Author

Allam Rabab, A. D., A. K., Sobeiha, A. A., Khidr, and Al-Senosy, Neima K.

Subjects

*PINK bollworm, *INSECTICIDE resistance, *GENE expression, *INSECTICIDES, *SPODOPTERA littoralis

Abstract

Study was conducted to assess two enzyme detoxifying activities and insecticide-resistance gene expression quantitation using real-time (PCR). Four populations of pink bollworm were compared with baseline laboratory strain. Field populations showed higher levels of enzymatic activity, glutathione-S-transferase and β–esterases, than those of the laboratory strain. The amplification curves scored a cycle threshold (Ct) value of 25 for the ribosomal protein subunit7 (rps7). For the BtR gene, the Ct values of analyzed biological groups ranged from 20 for laboratory strain to 24 for Fayoum group. For Cad1, the Ct values ranged from 19 for laboratory strain to 23 for Fayoum and Qalubia populations. Therefore, the present work introduces a method for the challenge of monitoring resistance to Bt toxins in crops which require, according to IPM (Integrated pest management) program, a wise insecticide application. [ABSTRACT FROM AUTHOR]

Published

2021

5. Alterations in the Plasma Proteome Induced by SARS-CoV-2 and MERS-CoV Reveal Biomarkers for Disease Outcomes for COVID-19 Patients.

Author

Alaiya, Ayodele, Alshukairi, Abeer, Shinwari, Zakia, AL-Fares, Mariam, Alotaibi, Jawaher, AlOmaim, Waleed, Alsharif, Ibtihaj, Bakheet, Razan, Alharbi, Layla, Allam, Rabab, Asiri, Ayed, Memish, Ziad, Alromaih, Khaldoun, and Al-Mozaini, Maha

Subjects

COVID-19, MERS coronavirus, SARS-CoV-2, TREATMENT effectiveness, RETINOID X receptors

Abstract

aim,3 Ibtihaj Alsharif,5 Razan Bakheet,6 Layla Alharbi,5 Rabab Allam,1 Ayed Asiri,7 Ziad Memish,8 Khaldoun Alromaih,6 Maha Al-Mozaini51Proteomics Unit, Stem Cell and Tissue Re-Engineering Program, King Faisal Specialist Hospital and Research Centre, Riyadh, 11211, Saudi Arabia; 2Department of Medicine, King Faisal Specialist Hospital and Research Center, Jeddah, Kingdom of Saudi Arabia; 3Clinical Chemistry Laboratory, Department of Pathology and Laboratory Medicine, King Faisal Specialist Hospital and Research Centre, Riyadh, Saudi Arabia; 4Department of Medicine, King Faisal Specialist Hospital and Research Center, Riyadh, Kingdom of Saudi Arabia; 5Immunocompromised Host Research Unit, Department of Infection and Immunity, King Faisal Specialist Hospital and Research Centre, Riyadh, Saudi Arabia; 6Centre for Genomic Medicine, King Faisal Specialist Hospital and Research Center, Riyadh, Kingdom of Saudi Arabia; 7Critical Care Services, Al Imam Abdulrahman Al Faisal Hospital, Riyadh, Kingdom of Saudi Arabia; 8Research and Innovation Center, King Saud Medical City, Ministry of Health, Riyadh, Kingdom of Saudi ArabiaCorrespondence: Ayodele AlaiyaProteomics Unit, Stem Cell and Tissue Re-Engineering Program, King Faisal Specialist Hospital and Research Centre, KFSH&RC, BOX 3354, Riyadh, 11211, Saudi ArabiaTel +966 114424178Email [email protected] Maha Al-MozainiImmunocompromised Host Research Unit, Department of Infection and Immunity, KFSH&RC, Riyadh, Saudi ArabiaTel +966 114439632Email [email protected] Purpose: This study aimed to understand the pathophysiology of host responses to infections caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)/(COVID-19) and Middle East respiratory syndrome coronavirus (MERS-CoV) and to identify proteins for patient stratification with different grades of illness severity. Patients and Methods: Peripheral blood samples from 43 patients with different grades of COVID-19, 7 MERS-CoV patients admitted to the ICU, and 10 healthy subjects were analyzed using label-free quantitative liquid chromatography–mass spectrometry (LC–MS). Results: We identified 193 and 91 proteins that differed significantly between COVID-19 and MERS-CoV sample groups, respectively, and 49 overlapped between datasets. Only 10 proteins are diagnostic of asymptomatic cases, 12 are prognostic of recovery from severe illness, and 28 are prognostic of a fatal outcome of COVID-19. These proteins are implicated in virus-specific/related signaling networks. Notable among the top canonical pathways are humoral immunity, inflammation, acute-phase response signaling, liver X receptor/retinoid X receptor (LXR/RXR) activation, coagulation, and the complement system. Furthermore, we confirmed positive viral shedding in 11.76% of 51 additional peripheral blood samples, indicating that caution should be taken to avoid the possible risk of transfusion of infected blood products. Conclusion: We identified COVID-19 and MERS-CoV protein panels that have potential as biomarkers and might assist in the prognosis of SARS-CoV-2 infection. The identified markers further our understanding of COVID-19 disease pathophysiology and may have prognostic or therapeutic potential in predicting or managing host cell responses to human COVID-19 and MERS-CoV infections. [ABSTRACT FROM AUTHOR]

Published

2021

6. A comprehensive introduction to the genetic basis of non-syndromic hearing loss in the Saudi Arabian population

Author

Al-Shaikh Abdulmoneem H, Sogaty Sameera, Al-Mostafa Abeer, Allam Rabab, Trabzuni Daniah, Al-Mubarak Bashayer, Kennedy Shelley, Bin-Khamis Ghada, Ramzan Khushnooda, Taibah Khalid, Imtiaz Faiqa, Bamukhayyar Saeed S, Meyer Brian F, and Al-Owain Mohammed

Subjects

Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Hearing loss is a clinically and genetically heterogeneous disorder. Mutations in the DFNB1 locus have been reported to be the most common cause of autosomal recessive non-syndromic hearing loss worldwide. Apart from DFNB1, many other loci and their underlying genes have also been identified and the basis of our study was to provide a comprehensive introduction to the delineation of the molecular basis of non-syndromic hearing loss in the Saudi Arabian population. This was performed by screening DFNB1 and to initiate prioritized linkage analysis or homozygosity mapping for a pilot number of families in which DFNB1 has been excluded. Methods Individuals from 130 families of Saudi Arabian tribal origin diagnosed with an autosomal recessive non-syndromic sensorineural hearing loss were screened for mutations at the DFNB1 locus by direct sequencing. If negative, genome wide linkage analysis or homozygosity mapping were performed using Affymetrix GeneChip® Human Mapping 250K/6.0 Arrays to identify regions containing any known-deafness causing genes that were subsequently sequenced. Results Our results strongly indicate that DFNB1 only accounts for 3% of non-syndromic hearing loss in the Saudi Arabian population of ethnic ancestry. Prioritized linkage analysis or homozygosity mapping in five separate families established that their hearing loss was caused by five different known-deafness causing genes thus confirming the genetic heterogeneity of this disorder in the kingdom. Conclusion The overall results of this study are highly suggestive that underlying molecular basis of autosomal recessive non-syndromic deafness in Saudi Arabia is very genetically heterogeneous. In addition, we report that the preliminary results indicate that there does not seem to be any common or more prevalent loci, genes or mutations in patients with autosomal recessive non-syndromic hearing loss in patients of Saudi Arabian tribal origin.

Published

2011

7. Spectrum of Mutations in 60 Saudi Patients with Mut Methylmalonic Acidemia.

Author

Imtiaz, Faiqa, Al-Mubarak, Bashayer M., Al-Mostafa, Abeer, Al-Hamed, Mohamed, Allam, Rabab, Al-Hassnan, Zuhair, Al-Owain, Mohammed, Al-Zaidan, Hamad, Rahbeeni, Zuhair, Qari, Alya, Faqeih, Eissa Ali, Alasmari, Ali, Al-Mutairi, Fuad, Alfadhel, Majid, Eyaid, Wafaa M., Rashed, Mohamed S., and Al-Sayed, Moeenaldeen

Published

2016

8. Clinical, Endocrine, and Molecular Genetic Analysis of a Large Cohort of Saudi Arabian Patients with Laron Syndrome.

Author

Al-Ashwal, Abdullah A., Al-Sagheir, Afaf, Ramzan, Khushnooda, Al-Owain, Mohammed, Allam, Rabab, Qari, Alya, Al-Numair, Nouf S., and Imtiaz, Faiqa

Subjects

LARON dwarfism, SOMATOTROPIN receptors, SAUDI Arabians, GENETICS, HEALTH

Abstract

Background/Aims: Laron syndrome (LS) is an autosomal recessive disease characterized by marked short stature and very low serum IGF-1 and IGFBP-3 levels. This study assessed the clinical and endocrine features alongside determining the growth hormone receptor gene (GHR) mutation in Saudi Arabian patients with LS in order to establish whether or not a genotype/phenotype correlation is evident in this large cohort. Subjects and Methods: A total of 40 Saudi Arabian patients with a suspected diagnosis of LS were recruited and subjected to a full clinical and endocrine investigation together with direct sequencing of the coding regions of the GHR gene. Results: GHR mutations were identified in 34 patients from 22 separate nuclear families. All 34 molecularly confirmed patients had the typical clinical and endocrinological manifestations of LS. Eleven different mutations (9 previously unreported) were detected in this cohort of patients, all inherited in an autosomal recessive homozygous form. No genotype/phenotype correlation was apparent. Conclusion: The identification of pathogenic mutations causing LS will be of tremendous use for the molecular diagnosis of patients in Saudi Arabia and the region in general, with respect to prevention of this disease in the forms of future carrier testing, prenatal testing, premarital screening and preimplantation genetic diagnosis. [ABSTRACT FROM AUTHOR]

Published

2017

9. Two novel LHX3 mutations in patients with combined pituitary hormone deficiency including cervical rigidity and sensorineural hearing loss.

Author

Ramzan, Khushnooda, Bin-Abbas, Bassam, Al-Jomaa, Lolwa, Allam, Rabab, Al-Owain, Mohammed, and Imtiaz, Faiqa

Subjects

HYPOPITUITARISM, CERVICAL vertebrae, SENSORINEURAL hearing loss, DIFFERENTIAL diagnosis, MOLECULAR diagnosis, GENETIC mutation, PITUITARY hormones, TRANSCRIPTION factors, DIAGNOSIS

Abstract

Background: Congenital combined pituitary hormone deficiency (CPHD) is a rare heterogeneous group of conditions. CPHD-type 3 (CPHD3; MIM# 221750) is caused by recessive mutations in LHX3, a LIM-homeodomain transcription factor gene. The isoforms of LHX3 are critical for pituitary gland formation and specification of the anterior pituitary hormonesecreting cell types. They also play distinct roles in the development of neuroendocrine and auditory systems. Case presentation: Here, we summarize the clinical, endocrinological, radiological and molecular features of three patients from two unrelated families. Clinical evaluation revealed severe CPHD coupled with cervical vertebral malformations (rigid neck, scoliosis), mild developmental delay and moderate sensorineural hearing loss (SNHL). The patients were diagnosed with CPHD3 based on the array of hormone deficiencies and other associated syndromic symptoms, suggestive of targeted LHX3 gene sequencing. A novel missense mutation c.437G > T (p. Cys146Phe) and a novel nonsense mutation c. 466C > T (p. Arg156Ter), both in homozygous forms, were found. The altered Cys146 resides in the LIM2 domain of the encoded protein and is a phylogenetically conserved residue, which mediates LHX3 transcription factor binding with a zinc cation. The p. Arg156Ter is predicted to result in a severely truncated protein, lacking the DNA binding homeodomain. Conclusions: Considering genotype/phenotype correlation, we suggest that the presence of SNHL and limited neck rotation should be considered in the differential diagnosis of CPHD3 to facilitate molecular diagnosis. This report describes the first LHX3 mutations from Saudi patients and highlights the importance of combining molecular diagnosis with the clinical findings. In addition, it also expands the knowledge of LHX3-related CPHD3 phenotype and the allelic spectrum for this gene. [ABSTRACT FROM AUTHOR]

Published

2017

10. Variation in DNAH1 may contribute to primary ciliary dyskinesia.

Author

Imtiaz, Faiqa, Allam, Rabab, Ramzan, Khushnooda, and Al-Sayed, Moeenaldeen

Subjects

*CILIARY motility disorders, *CILIOPATHY, *CELLULAR pathology, *DISABILITY identification, *GENITAL diseases

Abstract

Background: Primary Ciliary Dyskinesia (PCD) is a genetically heterogeneous ciliopathy caused by ultrastructural defects in ciliary or flagellar structure and is characterized by a number of clinical symptoms including recurrent respiratory infections progressing to permanent lung damage and infertility. Case presentation: Here we describe our search to delineate the molecular basis in two affected sisters with clinically diagnosed PCD from a consanguineous Saudi Arabian family, in which all known genes have been excluded. A homozygosity mapping-based approach was utilized that ultimately identified one single affectedshared region of homozygosity using 10 additional unaffected family members. A plausible candidate gene was directly sequenced and analyzed for mutations. A novel homozygous missense aberration (p.Lys1154Gln) was identified in both sisters in the DNAH1 gene that segregated completely with the disease phenotype. Further confirmation of this interesting variant was provided by exome-wide analysis in the proband. Conclusion: Molecular variation in DNAH1 may play a role in PCD and its potential contribution should be considered in patients where all known genes are excluded. [ABSTRACT FROM AUTHOR]

Published

2015

11. A comprehensive introduction to the genetic basis of non-syndromic hearing loss in the Saudi Arabian population.

Author

Imtiaz, Faiqa, Taibah, Khalid, Ramzan, Khushnooda, Bin-Khamis, Ghada, Kennedy, Shelley, Al-Mubarak, Bashayer, Trabzuni, Daniah, Allam, Rabab, Al-Mostafa, Abeer, Sogaty, Sameera, Al-Shaikh, Abdulmoneem H., Bamukhayyar, Saeed S., Meyer, Brian F., and Al-Owain, Mohammed

Subjects

GENETIC mutation, HEARING disorders, LOCUS (Genetics)

Abstract

Background: Hearing loss is a clinically and genetically heterogeneous disorder. Mutations in the DFNB1 locus have been reported to be the most common cause of autosomal recessive non-syndromic hearing loss worldwide. Apart from DFNB1, many other loci and their underlying genes have also been identified and the basis of our study was to provide a comprehensive introduction to the delineation of the molecular basis of non-syndromic hearing loss in the Saudi Arabian population. This was performed by screening DFNB1 and to initiate prioritized linkage analysis or homozygosity mapping for a pilot number of families in which DFNB1 has been excluded. Methods: Individuals from 130 families of Saudi Arabian tribal origin diagnosed with an autosomal recessive nonsyndromic sensorineural hearing loss were screened for mutations at the DFNB1 locus by direct sequencing. If negative, genome wide linkage analysis or homozygosity mapping were performed using Affymetrix GeneChip® Human Mapping 250K/6.0 Arrays to identify regions containing any known-deafness causing genes that were subsequently sequenced. Results: Our results strongly indicate that DFNB1 only accounts for 3% of non-syndromic hearing loss in the Saudi Arabian population of ethnic ancestry. Prioritized linkage analysis or homozygosity mapping in five separate families established that their hearing loss was caused by five different known-deafness causing genes thus confirming the genetic heterogeneity of this disorder in the kingdom. Conclusion: The overall results of this study are highly suggestive that underlying molecular basis of autosomal recessive non-syndromic deafness in Saudi Arabia is very genetically heterogeneous. In addition, we report that the preliminary results indicate that there does not seem to be any common or more prevalent loci, genes or mutations in patients with autosomal recessive non-syndromic hearing loss in patients of Saudi Arabian tribal origin. [ABSTRACT FROM AUTHOR]

Published

2011

12. Homozygosity mapping identifies a novel GIPC3 mutation causing congenital nonsyndromic hearing loss in a Saudi family.

Author

Ramzan, Khushnooda, Al-Owain, Mohammed, Allam, Rabab, Berhan, Amal, Abuharb, Gheid, Taibah, Khalid, and Imtiaz, Faiqa

Subjects

*HOMOZYGOSITY, *GENE mapping, *GENETIC mutation, *CONGENITAL disorders, *GENETICS of deafness, *SINGLE nucleotide polymorphisms, *PHENOTYPES

Abstract

Abstract: Hearing loss is one of the most common sensory disorders in humans and has a genetic cause in 50% of the cases. Our recent studies indicate that nonsyndromic hearing loss (NSHL) in the Saudi Arabian population is genetically heterogeneous and is not caused by mutations in GJB2 and GJB6, the most common genes for deafness in various populations worldwide. Identification of the causative gene/mutation in affected families is difficult due to extreme genetic heterogeneity and lack of phenotypic variability. We utilized an SNP array-based whole-genome homozygosity mapping approach in search of the causative gene, for the phenotype in a consanguineous Saudi family, with five affected individuals presenting severe to profound congenital NSHL. A single shared block of homozygosity was identified on chromosome 19p13.3 encompassing GIPC3, a recently identified hearing loss gene. Subsequently, a novel mutation c.122 C>A (p.T41K) in GIPC3 was found. This is the first report of GIPC3 mutation in a Saudi family. The presence of the GIPC3 mutations in only one of 100 Saudi families with congenital NSHL suggests that it appears to be a rare cause of familial or sporadic deafness in this population. [Copyright &y& Elsevier]

Published

2013

13. Identification of mutations causing hereditary tyrosinemia type I in patients of Middle Eastern origin

Author

Imtiaz, Faiqa, Rashed, Mohamed S., Al-Mubarak, Bashayer, Allam, Rabab, El-Karaksy, Hanaa, Al-Hassnan, Zuhair, Al-Owain, Mohammed, Al-Zaidan, Hamad, Rahbeeni, Zuhair, Qari, Alya, Meyer, Brian F., and Al-Sayed, Moeen

Subjects

*GENETIC mutation, *ETHYL acetoacetate, *HYDROLASES, *GENETIC disorders

Abstract

Abstract: Hereditary Tyrosinemia Type 1 (HT1) is an autosomal recessive disorder resulting from a deficiency of fumarylacetoacetase caused by mutations in the fumarylacetoacetate hydrolase (FAH) gene. We detected 11 novel and 6 previously described pathogenic mutations in a cohort of 43 patients originating from the Middle East with the acute form HT1. All of the mutations were homozygous and we did not find the presence of a “founder mutation”. [Copyright &y& Elsevier]

Published

2011

14. Twenty novel mutations in BCKDHA , BCKDHB and DBT genes in a cohort of 52 Saudi Arabian patients with maple syrup urine disease.

Author

Imtiaz F, Al-Mostafa A, Allam R, Ramzan K, Al-Tassan N, Tahir AI, Al-Numair NS, Al-Hamed MH, Al-Hassnan Z, Al-Owain M, Al-Zaidan H, Al-Amoudi M, Qari A, Balobaid A, and Al-Sayed M

Abstract

Maple syrup urine disease (MSUD), an autosomal recessive inborn error of metabolism due to defects in the branched-chain α-ketoacid dehydrogenase (BCKD) complex, is commonly observed among other inherited metabolic disorders in the kingdom of Saudi Arabia. This report presents the results of mutation analysis of three of the four genes encoding the BCKD complex in 52 biochemically diagnosed MSUD patients originating from Saudi Arabia. The 25 mutations (20 novel) detected spanned across the entire coding regions of the BCKHDA , BCKDHB and DBT genes. There were no mutations found in the DLD gene in this cohort of patients. Prediction effects, conservation and modelling of novel mutations demonstrated that all were predicted to be disease-causing. All mutations presented in a homozygous form and we did not detect the presence of a "founder" mutation in any of three genes. In addition, prenatal molecular genetic testing was successfully carried out on chorionic villus samples or amniocenteses in 10 expectant mothers with affected children with MSUD, molecularly characterized by this study.

Published

2017