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1. Deciphering the genetic architecture and ethnographic distribution of IRD in three ethnic populations by whole genome sequence analysis.

Author

Pooja Biswas, Adda L Villanueva, Angel Soto-Hermida, Jacque L Duncan, Hiroko Matsui, Shyamanga Borooah, Berzhan Kurmanov, Gabriele Richard, Shahid Y Khan, Kari Branham, Bonnie Huang, John Suk, Benjamin Bakall, Jeffrey L Goldberg, Luis Gabriel, Naheed W Khan, Pongali B Raghavendra, Jason Zhou, Sindhu Devalaraja, Andrew Huynh, Akhila Alapati, Qais Zawaydeh, Richard G Weleber, John R Heckenlively, J Fielding Hejtmancik, Sheikh Riazuddin, Paul A Sieving, S Amer Riazuddin, Kelly A Frazer, and Radha Ayyagari

Subjects
Genetics, QH426-470
Abstract

Patients with inherited retinal dystrophies (IRDs) were recruited from two understudied populations: Mexico and Pakistan as well as a third well-studied population of European Americans to define the genetic architecture of IRD by performing whole-genome sequencing (WGS). Whole-genome analysis was performed on 409 individuals from 108 unrelated pedigrees with IRDs. All patients underwent an ophthalmic evaluation to establish the retinal phenotype. Although the 108 pedigrees in this study had previously been examined for mutations in known IRD genes using a wide range of methodologies including targeted gene(s) or mutation(s) screening, linkage analysis and exome sequencing, the gene mutations responsible for IRD in these 108 pedigrees were not determined. WGS was performed on these pedigrees using Illumina X10 at a minimum of 30X depth. The sequence reads were mapped against hg19 followed by variant calling using GATK. The genome variants were annotated using SnpEff, PolyPhen2, and CADD score; the structural variants (SVs) were called using GenomeSTRiP and LUMPY. We identified potential causative sequence alterations in 61 pedigrees (57%), including 39 novel and 54 reported variants in IRD genes. For 57 of these pedigrees the observed genotype was consistent with the initial clinical diagnosis, the remaining 4 had the clinical diagnosis reclassified based on our findings. In seven pedigrees (12%) we observed atypical causal variants, i.e. unexpected genotype(s), including 4 pedigrees with causal variants in more than one IRD gene within all affected family members, one pedigree with intrafamilial genetic heterogeneity (different affected family members carrying causal variants in different IRD genes), one pedigree carrying a dominant causative variant present in pseudo-recessive form due to consanguinity and one pedigree with a de-novo variant in the affected family member. Combined atypical and large structural variants contributed to about 20% of cases. Among the novel mutations, 75% were detected in Mexican and 50% found in European American pedigrees and have not been reported in any other population while only 20% were detected in Pakistani pedigrees and were not previously reported. The remaining novel IRD causative variants were listed in gnomAD but were found to be very rare and population specific. Mutations in known IRD associated genes contributed to pathology in 63% Mexican, 60% Pakistani and 45% European American pedigrees analyzed. Overall, contribution of known IRD gene variants to disease pathology in these three populations was similar to that observed in other populations worldwide. This study revealed a spectrum of mutations contributing to IRD in three populations, identified a large proportion of novel potentially causative variants that are specific to the corresponding population or not reported in gnomAD and shed light on the genetic architecture of IRD in these diverse global populations.

Published
2021
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2. Investigating the Molecular Basis of Retinal Degeneration in a Familial Cohort of Pakistani Decent by Exome Sequencing.

Author

Bruno Maranhao, Pooja Biswas, Alexander D H Gottsch, Mili Navani, Muhammad Asif Naeem, John Suk, Justin Chu, Sheen N Khan, Rachel Poleman, Javed Akram, Sheikh Riazuddin, Pauline Lee, S Amer Riazuddin, J Fielding Hejtmancik, and Radha Ayyagari

Subjects
Medicine, Science
Abstract

PURPOSE:To define the molecular basis of retinal degeneration in consanguineous Pakistani pedigrees with early onset retinal degeneration. METHODS:A cohort of 277 individuals representing 26 pedigrees from the Punjab province of Pakistan was analyzed. Exomes were captured with commercial kits and sequenced on an Illumina HiSeq 2500. Candidate variants were identified using standard tools and analyzed using exomeSuite to detect all potentially pathogenic changes in genes implicated in retinal degeneration. Segregation analysis was performed by dideoxy sequencing and novel variants were additionally investigated for their presence in ethnicity-matched controls. RESULTS:We identified a total of nine causal mutations, including six novel variants in RPE65, LCA5, USH2A, CNGB1, FAM161A, CERKL and GUCY2D as the underlying cause of inherited retinal degenerations in 13 of 26 pedigrees. In addition to the causal variants, a total of 200 variants each observed in five or more unrelated pedigrees investigated in this study that were absent from the dbSNP, HapMap, 1000 Genomes, NHLBI ESP6500, and ExAC databases were identified, suggesting that they are common in, and unique to the Pakistani population. CONCLUSIONS:We identified causal mutations associated with retinal degeneration in nearly half of the pedigrees investigated in this study through next generation whole exome sequencing. All novel variants detected in this study through exome sequencing have been cataloged providing a reference database of variants common in, and unique to the Pakistani population.

Published
2015
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4. Food Commerce Upshots With Their Former Locus In The Economy With Respect To The Pandemic 2020 - A Drawback Or An Aid In South Kolkata, West Bengal

Author

Ashok Kumar Prasad, Sudipta Saha Gure, and Pooja Biswas

Abstract

Background: The Food Commerce industry has flourished massively during the past decade in South Kolkata in West Bengal, with new outlets opening every now and then, so much so that this region is known as ‘Food Street’. Regardless of their scale of operations, each of these outlets had well established themselves, catering to their respective target markets and earning decent amount of revenue over the years. However, this growth suffered a setback owing to the origin of novel Coronavirus SARS-n-CoV-2. The growth rate declined to a great extent over the span of two years, with recent studies showing an overall stunted growth rate. Even though online marketing of these outlets and selling the food through delivery apps have aided the entrepreneurs, the cost to revenue ratio is not at par with that of the times before the pandemic hit. Overall, the pandemic has impacted the eateries in more way than initially imagined. Objectives: a) To reveal the various problems and scenarios of managing food business during the Covid-19 pandemic in South Kolkata region; b) To compare the present scenario of the food industry with how things were before prior to the pandemic to understand the nature of change during this time frame; and, c) To describe the challenges and methods implemented by the food retail business entrepreneurs and managers of the randomly selected establishments to hold a steady business flow during the Covid-19 pandemic. Methodology: The study follows a descriptive research design. Therefore, the research will describe the characteristics of the sample under study. The food outlets of South Kolkata have been chosen as the study location. 100 respondents were selected. The respondents are those who consume food from these outlets such that they represent the wider target market of the ‘Food Street’. Both Primary Data and Secondary Data were used. Primary Data was collected through sample survey. Random Sampling technique was used to choose the respondents. The study used quantitative data, therefore, only Quantitative analysis was performed. Results: The Research was able to depict the comparison between the present scenario and the situation prior to the pandemic. The study was able to reveal the challenges and problems that the food outlets had to suffer from. Also, the methods or strategies taken up by the entrepreneurs of these outlets to overcome the pandemic were discovered. 46% of the respondents opted for “Mobile Food Delivery” as their strategy to revive from losses. Conclusion: With COVID-19 having altered – and still in the process of altering – the definition of “normal” across the world, most industries are still scrambling to adjust. The effect on the restaurant industry has been particularly dramatic. With restaurants and pubs closed for sit-down service, many establishments are struggling to keep their heads above water. The food outlets located in South Kolkata shares the same fate and the research is able to highlight this effectively.

Published
2022

5. Avidity sequencing of whole genomes from retinal degeneration pedigrees identifies causal variants

Author

Pooja Biswas, Adda Villanueva, Benjamin J. Krajacich, Juan Moreno, Junhua Zhao, Anne Marie Berry, Danielle Lazaro, Bryan R. Lajoie, Semyon Kruglyak, and Radha Ayyagari

Abstract

Whole genome sequencing has been an effective tool in the discovery of variants that cause rare disease. In this study, we determined the suitability of a novel avidity sequencing approach for rare disease applications. We built a sample to results workflow, combining the novel sequencing technology with standard library preparation kits, analysis workflows, and interpretation tools. We applied the workflow to ten pedigrees with inherited retinal degeneration (IRD) phenotype. Candidate variants of interest identified through whole genome sequencing were further evaluated using segregation analysis. Mutations in known IRD genes were detected in five of the ten cases. Genes with identified high confidence variants associated with retinal degeneration includedPEX6, ABCA4, CERKL, MAK, andRDH12. Pending confirmatory clinical sequencing, we observed a 50% diagnostic yield, consistent with previously reported outcomes of IRD patient analysis. The study confirms that avidity sequencing is effective in detection of causal mutations when used for whole genome sequencing in rare disease applications.

Published
2022

7. Identification of a novel large multigene deletion and a frameshift indel in

Author

Riccardo, Sangermano, Pooja, Biswas, Lori S, Sullivan, Emily M, Place, Shyamanga, Borooah, Juerg, Straubhaar, Eric A, Pierce, Stephen P, Daiger, Kinga M, Bujakowska, and Radha, Ayaggari

Abstract

A family, with two affected identical twins with early-onset recessive inherited retinal degeneration, was analyzed to determine the underlying genetic cause of pathology. Exome sequencing revealed a rare and previously reported causative variant (c.1923_1969delinsTCTGGG; p.Asn643Glyfs*29) in the

Published
2022

9. A Mouse Model with Ablated Asparaginase and Isoaspartyl Peptidase 1 (Asrgl1) Develops Early Onset Retinal Degeneration (RD) Recapitulating the Human Phenotype

Author

Pooja Biswas, Anne Marie Berry, Qais Zawaydeh, Dirk-Uwe G. Bartsch, Pongali B. Raghavendra, J. Fielding Hejtmancik, Naheed W. Khan, S. Amer Riazuddin, and Radha Ayyagari

Subjects
early onset degeneration, Neurodegenerative, Inbred C57BL, Eye, Autoantigens, Mice, Rare Diseases, Escherichia coli, Genetics, Animals, Humans, Asparaginase, 2.1 Biological and endogenous factors, Aetiology, Cas9, CRISPR/Cas9, Eye Disease and Disorders of Vision, Genetics (clinical), Animal, animal model, Retinal Degeneration, Neurosciences, Infant, ASRGL1, Phenotype, CRISPR, Disease Models, Peptide Hydrolases
Abstract

We previously identified a homozygous G178R mutation in human ASRGL1 (hASRGL1) through whole-exome analysis responsible for early onset retinal degeneration (RD) in patients with cone–rod dystrophy. The mutant G178R ASRGL1 expressed in Cos-7 cells showed altered localization, while the mutant ASRGL1 in E. coli lacked the autocatalytic activity needed to generate the active protein. To evaluate the effect of impaired ASRGL1 function on the retina in vivo, we generated a mouse model with c.578_579insAGAAA (NM_001083926.2) mutation (Asrgl1mut/mut) through the CRISPR/Cas9 methodology. The expression of ASGRL1 and its asparaginase activity were undetectable in the retina of Asrgl1mut/mut mice. The ophthalmic evaluation of Asrgl1mut/mut mice showed a significant and progressive decrease in scotopic electroretinographic (ERG) response observed at an early age of 3 months followed by a decrease in photopic response around 5 months compared with age-matched wildtype mice. Immunostaining and RT-PCR analyses with rod and cone cell markers revealed a loss of cone outer segments and a significant decrease in the expression of Rhodopsin, Opn1sw, and Opn1mw at 3 months in Asrgl1mut/mut mice compared with age-matched wildtype mice. Importantly, the retinal phenotype of Asrgl1mut/mut mice is consistent with the phenotype observed in patients harboring the G178R mutation in ASRGL1 confirming a critical role of ASRGL1 in the retina and the contribution of ASRGL1 mutations in retinal degeneration.

Published
2022
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11. URBAN CULTURAL HERITAGE - A CONCEPTUAL FRAMEWORK

Author

Pooja Biswas Rambhakta

Abstract

While urban heritage is growing its significance in the global urban context, there remains a lot of ambiguity in its perception. This article conceptualises the evolution and the various approaches to urban cultural heritage, understand its meaning, values and significance in the society and underlines its relationship with urbanisation in a developing city. Keywords: Urbanheritage; Conservation; Heritagemeaningconcept; evolutionmeaning culturalheritage; urbanisation

Published
2020

13. Deciphering the genetic architecture and ethnographic distribution of IRD in three ethnic populations by whole genome sequence analysis

Author

John Suk, S. Amer Riazuddin, Kelly A. Frazer, Kari Branham, Pooja Biswas, Sindhu Devalaraja, Jeffrey L. Goldberg, Qais Zawaydeh, Benjamin Bakall, Pongali B. Raghavendra, J. Fielding Hejtmancik, Angel Soto-Hermida, Bonnie Huang, Paul A. Sieving, Sheikh Riazuddin, Richard G. Weleber, Berzhan Kurmanov, Jason Zhou, Gabriele Richard, Jacque L. Duncan, Shahid Y. Khan, Adda Villanueva, Akhila Alapati, Shyamanga Borooah, Radha Ayyagari, Hiroko Matsui, Luis Alexandre Rassi Gabriel, Andrew Huynh, Naheed W. Khan, John R. Heckenlively, and Iyengar, Sudha K

Subjects
Male, Cancer Research, Mexican People, Heredity, Genetic Linkage, DNA Mutational Analysis, Gene Identification and Analysis, Pedigree chart, Gene mutation, QH426-470, Biochemistry, Homozygosity, Geographical Locations, Database and Informatics Methods, Consanguinity, Genotype, Ethnicity, Ethnicities, 2.1 Biological and endogenous factors, Pakistan, Exome, Aetiology, Frameshift Mutation, Genetics (clinical), Exome sequencing, Genetics, education.field_of_study, Heterozygosity, Retinal Degeneration, Population groupings, Pedigree, Europe, Nucleic acids, Female, Research Article, Biotechnology, Population, Biology, Research and Analysis Methods, Retina, Genetic linkage, Clinical Research, parasitic diseases, Exome Sequencing, Humans, Genetic Testing, education, Eye Proteins, Molecular Biology, Mutation Detection, Mexico, Ecology, Evolution, Behavior and Systematics, Genetic Association Studies, Whole Genome Sequencing, Genetic heterogeneity, Human Genome, Biology and Life Sciences, Latin American people, DNA, Biological Databases, Mutation Databases, Mutation, DNA damage, People and places, Developmental Biology
Abstract

Patients with inherited retinal dystrophies (IRDs) were recruited from two understudied populations: Mexico and Pakistan as well as a third well-studied population of European Americans to define the genetic architecture of IRD by performing whole-genome sequencing (WGS). Whole-genome analysis was performed on 409 individuals from 108 unrelated pedigrees with IRDs. All patients underwent an ophthalmic evaluation to establish the retinal phenotype. Although the 108 pedigrees in this study had previously been examined for mutations in known IRD genes using a wide range of methodologies including targeted gene(s) or mutation(s) screening, linkage analysis and exome sequencing, the gene mutations responsible for IRD in these 108 pedigrees were not determined. WGS was performed on these pedigrees using Illumina X10 at a minimum of 30X depth. The sequence reads were mapped against hg19 followed by variant calling using GATK. The genome variants were annotated using SnpEff, PolyPhen2, and CADD score; the structural variants (SVs) were called using GenomeSTRiP and LUMPY. We identified potential causative sequence alterations in 61 pedigrees (57%), including 39 novel and 54 reported variants in IRD genes. For 57 of these pedigrees the observed genotype was consistent with the initial clinical diagnosis, the remaining 4 had the clinical diagnosis reclassified based on our findings. In seven pedigrees (12%) we observed atypical causal variants, i.e. unexpected genotype(s), including 4 pedigrees with causal variants in more than one IRD gene within all affected family members, one pedigree with intrafamilial genetic heterogeneity (different affected family members carrying causal variants in different IRD genes), one pedigree carrying a dominant causative variant present in pseudo-recessive form due to consanguinity and one pedigree with a de-novo variant in the affected family member. Combined atypical and large structural variants contributed to about 20% of cases. Among the novel mutations, 75% were detected in Mexican and 50% found in European American pedigrees and have not been reported in any other population while only 20% were detected in Pakistani pedigrees and were not previously reported. The remaining novel IRD causative variants were listed in gnomAD but were found to be very rare and population specific. Mutations in known IRD associated genes contributed to pathology in 63% Mexican, 60% Pakistani and 45% European American pedigrees analyzed. Overall, contribution of known IRD gene variants to disease pathology in these three populations was similar to that observed in other populations worldwide. This study revealed a spectrum of mutations contributing to IRD in three populations, identified a large proportion of novel potentially causative variants that are specific to the corresponding population or not reported in gnomAD and shed light on the genetic architecture of IRD in these diverse global populations., Author summary The study was performed to identify the underlying cause of inherited retinal degeneration (IRD) in 409 individuals from 108 families. Primarily, these families were recruited from three different geographic regions: Mexico, Pakistan and European Americans from the United States. Blood samples were collected from all individuals for genome analysis. This analysis detected causative variants in 61 out of the 108 pedigrees. A total of 93 gene variants were found in the 61 families. Among these, 54 were previously reported as causative variants and the remaining 39 have not been reported in IRD pedigrees. Interestingly, 54% of these novel variants were not listed in gnomAD. In addition to these findings, complex causative genotypes were observed in 20% of pedigrees. Overall, causative variants were detected in 63% Mexican, 60% Pakistani and 45% European American pedigrees. This study revealed the distribution of IRD causative variants in pedigrees with diverse ethnic and geographic backgrounds.

Published
2021

15. Cover, Volume 42, Issue 2

Author

Pooja Biswas, Shyamanga Borooah, Hiroko Matsui, Marina Voronchikhina, Jason Zhou, Qais Zawaydeh, Pongali B. Raghavendra, Henry Ferreyra, S. Amer Riazuddin, Karl Wahlin, Kelly A. Frazer, and Radha Ayyagari

Subjects
Genetics, Genetics (clinical)
Published
2021

16. Whole genome sequencing data of multiple individuals of Pakistani descent

Author

Shahid Y. Khan, Muhammad Ali, Sheikh Riazuddin, Mei-Chong Wendy Lee, J. Fielding Hejtmancik, Radha Ayyagari, Muhammad Asif Naeem, Saima Riazuddin, S. Amer Riazuddin, Zhiwei Ma, Asma A. Khan, and Pooja Biswas

Subjects
Statistics and Probability, Data Descriptor, Single-nucleotide polymorphism, Library and Information Sciences, Biology, Polymorphism, Single Nucleotide, Genome, Haplogroup, Education, 03 medical and health sciences, 0302 clinical medicine, Intergenic region, Genotype, Genetics, Humans, SNP, Pakistan, Polymorphism, 1000 Genomes Project, lcsh:Science, 030304 developmental biology, Whole genome sequencing, 0303 health sciences, Whole Genome Sequencing, Genome, Human, Comparative genomics, Human Genome, Single Nucleotide, Computer Science Applications, Next-generation sequencing, lcsh:Q, Statistics, Probability and Uncertainty, 030217 neurology & neurosurgery, Human, Information Systems
Abstract

Here we report whole genome sequencing of four individuals (H3, H4, H5, and H6) from a family of Pakistani descent. Whole genome sequencing yielded 1084.92, 894.73, 1068.62, and 1005.77 million mapped reads corresponding to 162.73, 134.21, 160.29, and 150.86 Gb sequence data and 52.49x, 43.29x, 51.70x, and 48.66x average coverage for H3, H4, H5, and H6, respectively. We identified 3,529,659, 3,478,495, 3,407,895, and 3,426,862 variants in the genomes of H3, H4, H5, and H6, respectively, including 1,668,024 variants common in the four genomes. Further, we identified 42,422, 39,824, 28,599, and 35,206 novel variants in the genomes of H3, H4, H5, and H6, respectively. A major fraction of the variants identified in the four genomes reside within the intergenic regions of the genome. Single nucleotide polymorphism (SNP) genotype based comparative analysis with ethnic populations of 1000 Genomes database linked the ancestry of all four genomes with the South Asian populations, which was further supported by mitochondria based haplogroup analysis. In conclusion, we report whole genome sequencing of four individuals of Pakistani descent., Measurement(s) SNV • genome Technology Type(s) whole genome sequencing • DNA sequencing Factor Type(s) individual Sample Characteristic - Organism Homo sapiens Sample Characteristic - Location Pakistan Machine-accessible metadata file describing the reported data: 10.6084/m9.figshare.12642761

Published
2020

17. Detection and validation of novel mutations in MERTK in a simplex case of retinal degeneration using WGS and hiPSC-RPEs model

Author

Kelly A. Frazer, Jason Zhou, Pooja Biswas, Qais Zawaydeh, Pongali Raghavendra, Hiroko Matsui, Shyamanga Borooah, S. Amer Riazuddin, Marina voronchikhina, Henry Ferreyra, Radha Ayyagari, and Karl J. Wahlin

Subjects
Retinal degeneration, Proband, Induced Pluripotent Stem Cells, Retinal Pigment Epithelium, Biology, Compound heterozygosity, Article, 03 medical and health sciences, chemistry.chemical_compound, Exon, Phagocytosis, Genetics, medicine, Humans, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Retinal pigment epithelium, Whole Genome Sequencing, c-Mer Tyrosine Kinase, Genetic heterogeneity, 030305 genetics & heredity, Retinal Degeneration, Retinal, MERTK, medicine.disease, medicine.anatomical_structure, chemistry, Mutation, Leukocytes, Mononuclear, Female
Abstract

Inherited retinal degenerations (IRDs) are a group of genetically heterogeneous conditions with a broad phenotypic heterogeneity. Here, we report detection and validation of the underlying cause of progressive retinal degeneration in a nuclear family of European descent with a single affected individual. Whole genome sequencing of the proband and her unaffected sibling identified a novel intron 8 donor splice site variant (c.1296 + 1G>A) and a novel 731 base pair deletion encompassing exon 9 (Chr2:g.112751488_112752218 del) resulting in c.1297_1451del; p.K433_G484fsTer3 in the Mer tyrosine kinase protooncogene (MERTK), which is highly expressed in the retinal pigment epithelium (RPE). The proband carried both variants in the heterozygous state, which segregated with disease in the pedigree. These MERTK variants are predicted to result in the defective splicing of exon 8 and loss of exon 9 respectively. To evaluate the impact of these novel variants, peripheral blood mononuclear cells of the proband and her parents were reprogrammed to humaninduced pluripotent stem cell (hiPSC) lines, which were subsequently differentiated to hiPSC-RPE. Analysis of the proband's hiPSC-RPE revealed the absence of both MERTK transcript and its respective protein as well as abnormal phagocytosis when compared with the parental hiPSC-RPE. In summary, whole genome sequencing identified novel compound heterozygous variants in MERTK as the underlying cause of progressive retinal degeneration in a simplex case. Further, analysis using an hiPSC-RPE model established the functional impact of novel MERTK mutations and revealed the potential mechanism underlying pathology in the proband.

Published
2020

19. Late‐onset retinal degeneration pathology due to mutations in CTRP5 is mediated through HTRA1

Author

Anil Kumar Chekuri, Donita Garland, Suresh Subramani, Peter X. Shaw, Chloe M. Stanton, Angel Soto-Hermida, Pooja Biswas, Shyamanga Borooah, David S. Goodsell, Virender B. Kumar, Caroline Hayward, Radha Ayyagari, Katarzyna Zientara-Rytter, and Marina voronchikhina

Subjects
0301 basic medicine, Retinal degeneration, Aging, Pathology, medicine.medical_specialty, Biology, Drusen, Mass Spectrometry, Extracellular matrix, Mice, ECM remodeling, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Cellular Senescence, Original Paper, HTRA1, cDNA library, L‐ORD, Retinal Degeneration, age‐related macular degeneration, drusen, sub‐RPE deposits, High-Temperature Requirement A Serine Peptidase 1, Cell Biology, Macular degeneration, medicine.disease, eye diseases, Epithelium, 030104 developmental biology, medicine.anatomical_structure, Mutation, CTRP5, Immunohistochemistry, Collagen, 030217 neurology & neurosurgery
Abstract

Late‐onset retinal degeneration (L‐ORD) is an autosomal dominant macular degeneration characterized by the formation of sub‐retinal pigment epithelium (RPE) deposits and neuroretinal atrophy. L‐ORD results from mutations in the C1q‐tumor necrosis factor‐5 protein (CTRP5), encoded by the CTRP5/C1QTNF5 gene. To understand the mechanism underlying L‐ORD pathology, we used a human cDNA library yeast two‐hybrid screen to identify interacting partners of CTRP5. Additionally, we analyzed the Bruch's membrane/choroid (BM‐Ch) from wild‐type (Wt), heterozygous S163R Ctrp5 mutation knock‐in (Ctrp5S163R/wt), and homozygous knock‐in (Ctrp5S163R/S163R) mice using mass spectrometry. Both approaches showed an association between CTRP5 and HTRA1 via its C‐terminal PDZ‐binding motif, stimulation of the HTRA1 protease activity by CTRP5, and CTRP5 serving as an HTRA1 substrate. The S163R‐CTRP5 protein also binds to HTRA1 but is resistant to HTRA1‐mediated cleavage. Immunohistochemistry and proteomic analysis showed significant accumulation of CTRP5 and HTRA1 in BM‐Ch of Ctrp5S163R/S163R and Ctrp5S163R/wt mice compared with Wt. Additional extracellular matrix (ECM) components that are HTRA1 substrates also accumulated in these mice. These results implicate HTRA1 and its interaction with CTRP5 in L‐ORD pathology.

Published
2019

20. Whole genome sequencing reveals novel mutations causing autosomal dominant inherited macular degeneration

Author

Shyamanga Borooah, Gavin Arno, Pooja Biswas, Naushin Waseem, Lucy Raymond, Keren J. Carss, Georgios Agorogiannis, Andrew R. Webster, Joseph A. Marsh, and Chloe M. Stanton

Subjects
0301 basic medicine, Male, genetic structures, DNA Mutational Analysis, Mutation, Missense, Visual Acuity, Biology, Polymerase Chain Reaction, Nyctalopia, 03 medical and health sciences, Macular Degeneration, 0302 clinical medicine, medicine, Electroretinography, Humans, Fluorescein Angiography, Genetics (clinical), Aged, Genes, Dominant, Genetics, Whole genome sequencing, Tissue Inhibitor of Metalloproteinase-3, Whole Genome Sequencing, Macular dystrophy, Macular degeneration, Middle Aged, medicine.disease, eye diseases, Pedigree, Ophthalmology, 030104 developmental biology, Pediatrics, Perinatology and Child Health, 030221 ophthalmology & optometry, Female, sense organs, Collagen, medicine.symptom, Tomography, Optical Coherence
Abstract

BACKGROUND: Age-related macular degeneration (AMD) is a common sight threatening condition. However, there are a number of monogenic macular dystrophies that are clinically similar to AMD, which can potentially provide pathogenetic insights.METHODS: Three siblings from a non-consanguineous Greek-Cypriot family reported central visual disturbance and nyctalopia. The patients had full ophthalmic examinations and color fundus photography, spectral-domain ocular coherence tomography and scanning laser ophthalmoscopy. Targeted polymerase chain reaction (PCR) was performed as a first step to attempt to identify suspected mutations in C1QTNF5 and TIMP3 followed by whole genome sequencing.RESULTS: The three patients were noted to have symptoms of nyctalopia, early paracentral visual field loss and, in older patients, central vision loss. Imaging identified pseudodrusen, retinal atrophy and RPE-Bruch's membrane separation. Whole genome sequencing of the proband revealed two novel heterozygous variants in C1QTNF5, c.556C>T, and c.569C>G. The mutation segregated with disease in this family, occurred in cis, and resulted in missense amino acid changes P186S and S190W in C1QTNF5. In silico modeling of the variants revealed that the S190W mutations was likely to have the greatest pathologic effect and that the combination of the mutations was likely to have an additive effect.CONCLUSIONS: The novel mutations in C1QTNF5 identified here expand the genotypic spectrum of mutations causing late-onset retinal dystrophy.

Published
2018

21. Identification of Novel Deletions as the Underlying Cause of Retinal Degeneration in Two Pedigrees

Author

Kari, Branham, Aditya A, Guru, Igor, Kozak, Pooja, Biswas, Mohammad, Othman, Kameron, Kishaba, Hassan, Mansoor, Sheikh, Riazuddin, John R, Heckenlively, S Amer, Riazuddin, J Fielding, Hejtmancik, Paul A, Sieving, and Radha, Ayyagari

Subjects
Male, Genetic Linkage, Retinal Degeneration, Pedigree, Consanguinity, Haplotypes, Codon, Nonsense, Genes, X-Linked, North America, Exome Sequencing, Humans, Female, Pakistan, Eye Proteins, Adaptor Proteins, Signal Transducing, Sequence Deletion
Abstract

Retinal dystrophies are a phenotypically and genetically complex group of conditions. Because of this complexity, it can be challenging in many families to determine the inheritance based on pedigree analysis alone. Clinical examinations were performed and blood samples were collected from a North American (M1186) and a consanguineous Pakistani (PKRD168) pedigree affected with two different retinal dystrophies (RD). Based on the structure of the pedigrees, inheritance patterns in the families were difficult to determine. In one family, linkage analysis was performed with markers on X-chromosome. In the second family, whole-exome sequencing (WES) was performed. Subsequent Sanger sequencing of genes of interest was performed. Linkage and haplotype analysis localized the disease interval to a 70 Mb region on the X chromosome that encompassed RP2 and RPGR in M1186 . The disease haplotype segregated with RD in all individuals except for an unaffected man (IV:3) and his affected son (V:1) in this pedigree. Subsequent analysis identified a novel RPGR mutation (p. Lys857Glu fs221X) in all affected members of M1186 except V:1. This information suggests that there is an unidentified second cause of retinitis pigmentosa (RP) within the family. A novel two-base-pair deletion (p. Tyr565Ter fsX) in CHM (choroideremia) was found to segregate with RD in PKRD168. This paper highlights the challenges of interpreting family history in families with RD and reports on the identification of novel mutations in two RD families.

Published
2018

22. Whole-Exome Sequencing Identifies Novel Variants that Co-segregates with Autosomal Recessive Retinal Degeneration in a Pakistani Pedigree

Author

Pooja, Biswas, Muhammad Asif, Naeem, Muhammad Hassaan, Ali, Muhammad Zaman, Assir, Shaheen N, Khan, Sheikh, Riazuddin, J Fielding, Hejtmancik, S Amer, Riazuddin, and Radha, Ayyagari

Subjects
Sequence Homology, Amino Acid, Genetic Linkage, Chromosomes, Human, Pair 11, DNA Mutational Analysis, Retinal Degeneration, Genes, Recessive, Polymorphism, Single Nucleotide, Pedigree, DNA-Binding Proteins, Consanguinity, INDEL Mutation, Species Specificity, Exome Sequencing, Animals, Humans, Pakistan, Sequence Alignment, Conserved Sequence, Transcription Factors
Abstract

To identify the molecular basis of inherited retinal degeneration (IRD) in a familial case of Pakistani origin using whole-exome sequencing.A thorough ophthalmic examination was completed, and genomic DNA was extracted using standard protocols. Whole exome(s) were captured with Agilent V5 + UTRs probes and sequenced on Illumina HiSeq genome analyzer. The exomeSuite software was used to filter variants, and the candidate causal variants were prioritized, examining their allele frequency and PolyPhen2, SIFT, and MutationTaster predictions. Sanger dideoxy sequencing was performed to confirm the segregation with disease phenotype and absence in ethnicity-matched control chromosomes.Ophthalmic examination confirmed retinal degeneration in all affected individuals that segregated as an autosomal recessive trait in the family. Whole-exome sequencing identified two homozygous missense variants: c.1304G A; p.Arg435Gln in ZNF408 (NM_024741) and c.902G A; p.Gly301Asp in C1QTNF4 (NM_031909). Both variants segregated with the retinal phenotype in the PKRD320 and were absent in ethnically matched control chromosomes.Whole-exome sequencing coupled with bioinformatics analysis identified potential novel variants that might be responsible for IRD.

Published
2018

23. Whole-Exome Sequencing Identifies Novel Variants that Co-segregates with Autosomal Recessive Retinal Degeneration in a Pakistani Pedigree

Author

S. Amer Riazuddin, J. Fielding Hejtmancik, Muhammad Hassaan Ali, Muhammad Zaman Khan Assir, Radha Ayyagari, Shaheen N. Khan, Pooja Biswas, Sheikh Riazuddin, and Muhammad Asif Naeem

Subjects
0301 basic medicine, Retinal degeneration, Genetics, 03 medical and health sciences, Familial case, 030104 developmental biology, 0302 clinical medicine, parasitic diseases, 030221 ophthalmology & optometry, medicine, Biology, medicine.disease, Exome sequencing
Abstract

Purpose To identify the molecular basis of inherited retinal degeneration (IRD) in a familial case of Pakistani origin using whole-exome sequencing.

Published
2018

24. IFT88 mutations identified in individuals with non-syndromic recessive retinal degeneration result in abnormal ciliogenesis

Author

Sripriya Sarangapani, Akhila Alapati, Angel Soto-Hermida, Kelly A. Frazer, Aditya A. Guru, Sinnakaruppan Mathavan, John R. Heckenlively, Hiroko Matsui, Naheed W. Khan, Amalio Telenti, Kari Branham, Anil Kumar Chekuri, Michael A. Hicks, S. Amer Riazuddin, Paul A. Sieving, Shyamanga Borooah, Radha Ayyagari, Susanne Roosing, Pooja Biswas, and Pongali Raghavendra

Subjects
0301 basic medicine, Retinal degeneration, Male, Mutant, 030105 genetics & heredity, Biology, Compound heterozygosity, Article, Retina, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Paediatrics and Reproductive Medicine, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, Complementary and Alternative Medicine, Intraflagellar transport, Ciliogenesis, Genetics, medicine, 2.1 Biological and endogenous factors, Humans, Genetic Predisposition to Disease, Aetiology, Allele, Eye Disease and Disorders of Vision, Gene, Genetics (clinical), Alleles, Genetics & Heredity, Gene Editing, Whole Genome Sequencing, Tumor Suppressor Proteins, Human Genome, Homozygote, Retinal Degeneration, Neurosciences, Middle Aged, medicine.disease, Human genetics, Ciliopathies, Pedigree, 030104 developmental biology, Hela Cells, Mutation, Female, CRISPR-Cas Systems, HeLa Cells
Abstract

Whole genome sequencing (WGS) was performed to identify the variants responsible for inherited retinal degeneration (IRD) in a Caucasian family. Segregation analysis of selected rare variants with pathogenic potential identified a set of compound heterozygous changes p.Arg266*:c.796C>T and p.Ala568Thr:c.1702G>A in the intraflagellar transport protein-88 (IFT88) gene segregating with IRD. Expression of IFT88 with the p.Arg266* and p.Ala568Thr mutations in mIMDC3 cells by transient transfection and in HeLa cells by introducing the mutations using CRISPR-cas9 system suggested that both mutations result in the formation of abnormal ciliary structures. The introduction of the IFT88 p.Arg266* variant in the homozygous state in HeLa cells by CRISPR-Cas9 genome-editing revealed that the mutant transcript undergoes nonsense-mediated decay leading to a significant depletion of IFT88 transcript. Additionally, abnormal ciliogenesis was observed in these cells. These observations suggest that the rare and unique combination of IFT88 alleles observed in this study provide insight into the physiological role of IFT88 in humans and the likely mechanism underlying retinal pathology in the pedigree with IRD.

Published
2018

25. Identification of Novel Deletions as the Underlying Cause of Retinal Degeneration in Two Pedigrees

Author

Paul A. Sieving, Igor Kozak, Kari Branham, Radha Ayyagari, Sheikh Riazuddin, Aditya A. Guru, Mohammad Othman, John R. Heckenlively, J. Fielding Hejtmancik, Hassan Mansoor, Pooja Biswas, S. Amer Riazuddin, and Kameron Kishaba

Subjects
0301 basic medicine, Genetics, Sanger sequencing, Haplotype, Pedigree chart, Consanguinity, Biology, medicine.disease, Choroideremia, 03 medical and health sciences, symbols.namesake, 030104 developmental biology, 0302 clinical medicine, Genetic linkage, Retinitis pigmentosa, 030221 ophthalmology & optometry, medicine, symbols, Exome sequencing
Abstract

Retinal dystrophies are a phenotypically and genetically complex group of conditions. Because of this complexity, it can be challenging in many families to determine the inheritance based on pedigree analysis alone. Clinical examinations were performed and blood samples were collected from a North American (M1186) and a consanguineous Pakistani (PKRD168) pedigree affected with two different retinal dystrophies (RD). Based on the structure of the pedigrees, inheritance patterns in the families were difficult to determine. In one family, linkage analysis was performed with markers on X-chromosome. In the second family, whole-exome sequencing (WES) was performed. Subsequent Sanger sequencing of genes of interest was performed. Linkage and haplotype analysis localized the disease interval to a 70 Mb region on the X chromosome that encompassed RP2 and RPGR in M1186 . The disease haplotype segregated with RD in all individuals except for an unaffected man (IV:3) and his affected son (V:1) in this pedigree. Subsequent analysis identified a novel RPGR mutation (p. Lys857Glu fs221X) in all affected members of M1186 except V:1. This information suggests that there is an unidentified second cause of retinitis pigmentosa (RP) within the family. A novel two-base-pair deletion (p. Tyr565Ter fsX) in CHM (choroideremia) was found to segregate with RD in PKRD168. This paper highlights the challenges of interpreting family history in families with RD and reports on the identification of novel mutations in two RD families.

Published
2018

26. Transcriptome Analysis of Orbital Adipose Tissue in Active Thyroid Eye Disease Using Next Generation RNA Sequencing Technology

Author

Bradford W. Lee, Virender B. Kumar, Radha Ayyagari, Ramzi M. Alameddine, Don O. Kikkawa, Bobby S. Korn, Audrey C. Ko, David B. Granet, and Pooja Biswas

Subjects
0301 basic medicine, medicine.medical_specialty, Adipose tissue, Bioinformatics, Pathogenesis, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Clinical Research, Ophthalmology, Next generation sequencing, Gene expression, RNA sequencing technology, Genetics, Medicine, 2.1 Biological and endogenous factors, Aetiology, Gene, Eye Disease and Disorders of Vision, Glycosaminoglycan binding, Orbital adipose tissue, screening and diagnosis, business.industry, Thyroid, Human Genome, 4.1 Discovery and preclinical testing of markers and technologies, Detection, 030104 developmental biology, medicine.anatomical_structure, Adipogenesis, 030221 ophthalmology & optometry, business, IGF-1 signaling, Thyroid eye disease, Biotechnology
Abstract

Objective: This study utilized Next Generation Sequencing (NGS) to identify differentially expressed transcripts in orbital adipose tissue from patients with active Thyroid Eye Disease (TED) versus healthy controls. Method: This prospective, case-control study enrolled three patients with severe, active thyroid eye disease undergoing orbital decompression, and three healthy controls undergoing routine eyelid surgery with removal of orbital fat. RNA Sequencing (RNA-Seq) was performed on freshly obtained orbital adipose tissue from study patients to analyze the transcriptome. Bioinformatics analysis was performed to determine pathways and processes enriched for the differential expression profile. Quantitative Reverse Transcriptase-Polymerase Chain Reaction (qRT-PCR) was performed to validate the differential expression of selected genes identified by RNA-Seq. Results: RNA-Seq identified 328 differentially expressed genes associated with active thyroid eye disease, many of which were responsible for mediating inflammation, cytokine signaling, adipogenesis, IGF-1 signaling, and glycosaminoglycan binding. The IL-5 and chemokine signaling pathways were highly enriched, and very-low-density-lipoprotein receptor activity and statin medications were implicated as having a potential role in TED. Conclusion: This study is the first to use RNA-Seq technology to elucidate differential gene expression associated with active, severe TED. This study suggests a transcriptional basis for the role of statins in modulating differentially expressed genes that mediate the pathogenesis of thyroid eye disease. Furthermore, the identification of genes with altered levels of expression in active, severe TED may inform the molecular pathways central to this clinical phenotype and guide the development of novel therapeutic agents.

Published
2018

27. Identification of the genetic determinants responsible for retinal degeneration in families of Mexican descent

Author

Kameron Kishaba, Bruno Lamontagne, Sylvie Provost, Pongali B. Raghavendra, Géraldine Asselin, Steve Geoffroy, Adda Villanueva, Eric Nudleman, Ian Mongrain, Karine Nadeau, John Suk, Marie-Pierre Dubé, Keerti Tadimeti, Lambert Busque, Radha Ayyagari, and Pooja Biswas

Subjects
0301 basic medicine, Retinal degeneration, Adult, Male, cis-trans-Isomerases, Adolescent, Genotyping Techniques, DNA Mutational Analysis, Pedigree chart, Biology, Article, Genetic Determinism, 03 medical and health sciences, 0302 clinical medicine, IMP Dehydrogenase, parasitic diseases, Exome Sequencing, medicine, Humans, Eye Proteins, Mexico, Genetics (clinical), Exome sequencing, Aged, Genetics, Extracellular Matrix Proteins, Retinal Degeneration, Middle Aged, medicine.disease, Mexican population, Pedigree, Ophthalmology, 030104 developmental biology, Phenotype, Child, Preschool, Pediatrics, Perinatology and Child Health, Mutation, 030221 ophthalmology & optometry, Identification (biology), ATP-Binding Cassette Transporters, Female
Abstract

To investigate the clinical characteristics and genetic basis of inherited retinal degeneration (IRD) in six unrelated pedigrees from Mexico.A complete ophthalmic evaluation including measurement of visual acuities, Goldman kinetic or Humphrey dynamic perimetry, Amsler test, fundus photography, and color vision testing was performed. Family history and blood samples were collected from available family members. DNA from members of two pedigrees was examined for known mutations using the APEX ARRP genotyping microarray and one pedigree using the APEX LCA genotyping microarray. The remaining three pedigrees were analyzed using a custom-designed targeted capture array covering the exons of 233 known retinal degeneration genes. Sequencing was performed on Illumina HiSeq. Reads were mapped against hg19, and variants were annotated using GATK and filtered by exomeSuite. Segregation and ethnicity-matched control sample analyses were performed by dideoxy sequencing.Six pedigrees with IRD were analyzed. Nine rare or novel, potentially pathogenic variants segregating with the phenotype were detected in IMPDH1, USH2A, RPE65, ABCA4, and FAM161A genes. Among these, six were known mutations while the remaining three changes in USH2A, RPE65, and FAM161A genes have not been previously reported to be associated with IRD. Analysis of 100 ethnicity-matched controls did not detect the presence of these three novel variants indicating, these are rare variants in the Mexican population.Screening patients diagnosed with IRD from Mexico identified six known mutations and three rare or novel potentially damaging variants in IMPDH1, USH2A, RPE65, ABCA4, and FAM161A genes that segregated with disease.

Published
2017

28. Whole Genome Sequencing Revealed Mutations in Two Independent Genes as the Underlying Cause of Retinal Degeneration in an Ashkenazi Jewish Pedigree

Author

Kelly A. Frazer, David Jakubosky, Hiroko Matsui, Pooja Biswas, Radha Ayyagari, John Suk, Jacque L. Duncan, Amalio Telenti, Angel Soto-Hermida, and Kevin Gustafson

Subjects
0301 basic medicine, Retinal degeneration, retina, lcsh:QH426-470, Nonsense mutation, genetics, retinitis pigmentosa, Biology, medicine.disease_cause, Eye, 03 medical and health sciences, 0302 clinical medicine, Rare Diseases, Clinical Research, Retinitis pigmentosa, medicine, Genetics, 2.1 Biological and endogenous factors, Ashkenazi Jewish, Aetiology, Gene, Eye Disease and Disorders of Vision, Genetics (clinical), Exome sequencing, Whole genome sequencing, Mutation, Human Genome, Neurosciences, Correction, medicine.disease, Molecular biology, lcsh:Genetics, 030104 developmental biology, 030221 ophthalmology & optometry, Biotechnology
Abstract

Retinitis pigmentosa (RP) causes progressive photoreceptor loss resulting from mutations in over 80 genes. This study identified the genetic cause of RP in three members of a non-consanguineous pedigree. Detailed ophthalmic evaluation was performed in the three affected family members. Whole exome sequencing (WES) and whole genome sequencing (WGS) were performed in the three affected and the two unaffected family members and variants were filtered to detect rare, potentially deleterious variants segregating with disease. WES and WGS did not identify potentially pathogenic variants shared by all three affected members. However, WES identified a previously reported homozygous nonsense mutation in KIZ (c.226C>T, p.Arg76*) in two affected sisters, but not in their affected second cousin. WGS revealed a novel 1.135 kb homozygous deletion in a retina transcript of C21orf2 and a novel 30.651 kb heterozygous deletion in CACNA2D4 in the affected second cousin. The sisters with the KIZ mutation carried no copies of the C21orf2 or CACNA2D4 deletions, while the second cousin with the C21orf2 and CACNA2D4 deletions carried no copies of the KIZ mutation. This study identified two independent, homozygous mutations in genes previously reported in autosomal recessive RP in a non-consanguineous family, and demonstrated the value of WGS when WES fails to identify likely disease-causing mutations.

Published
2017

29. A mutation in IFT43 causes non-syndromic recessive retinal degeneration

Author

Hiroko Matsui, Javed Akram, Muhammad Ali, Radha Ayyagari, Sheikh Riazuddin, J. Fielding Hejtmancik, S. Amer Riazuddin, Pooja Biswas, Muhammad Asif Naeem, Pongali Raghavendra, Kelly A. Frazer, Heleen H. Arts, and Jacque L. Duncan

Subjects
0301 basic medicine, Retinal degeneration, Male, Genes, Recessive, Consanguinity, Biology, medicine.disease_cause, Retina, 03 medical and health sciences, 0302 clinical medicine, Intraflagellar transport, Exome Sequencing, Genetics, medicine, Humans, Exome, Molecular Biology, Genetics (clinical), Exome sequencing, Mutation, Base Sequence, Cilium, Homozygote, Retinal Degeneration, General Medicine, Articles, medicine.disease, Molecular biology, Pedigree, 030104 developmental biology, medicine.anatomical_structure, Phenotype, 030221 ophthalmology & optometry, Female, Carrier Proteins, Immunostaining
Abstract

The aim of this work is to identify the molecular cause of autosomal recessive early onset retinal degeneration in a consanguineous pedigree. Seventeen members of a four-generation Pakistani family were recruited and underwent a detailed ophthalmic examination. Exomes of four affected and two unaffected individuals were sequenced. Variants were filtered using exomeSuite to identify rare potentially pathogenic variants in genes expressed in the retina and/or brain and consistent with the pattern of inheritance. Effect of the variant observed in the gene Intraflagellar Transport Protein 43 (IFT43) was studied by heterologous expression in mIMCD3 and MDCK cells. Expression and sub-cellular localization of IFT43 in the retina and transiently transfected cells was examined by RT-PCR, western blot analysis, and immunohistochemistry. Affected members were diagnosed with early onset non-syndromic progressive retinal degeneration and the presence of bone spicules distributed throughout the retina at younger ages while the older affected members showed severe central choroidal atrophy. Whole-exome sequencing analysis identified a novel homozygous c.100 G > A change in IFT43 segregating with retinal degeneration and not present in ethnicity-matched controls. Immunostaining showed IFT43 localized in the photoreceptors, and to the tip of the cilia in transfected mIMCD3 and MDCK cells. The cilia in mIMCD3 and MDCK cells expressing mutant IFT43 were found to be significantly shorter (P

Published
2017

30. Virtual Reality for Combating Social Awkwardness in Special Needs

Author

Sophia Rahaman, Sogra Bilal Memon, Pooja Biswas, and Zakia Ansari

Subjects
Social skills, business.industry, Field (Bourdieu), Medicine, Face (sociological concept), Special needs, Public relations, Virtual reality, business, Recreation, Management
Abstract

Social awkwardness remains one of the main factors which employers consider when hiring an employee. Current research shows that the percentage of employment for people with special needs is extremely low. One of the reasons identified by employers is these people lack social skills. Though people with special needs have proven to be good employees their inability to adapt to a change in social settings hinders their employment as these skills are highly important in the workplace. The people with special needs who are determined to acquire skills despite the challenges they may face are referred to the People Of Determination (POD). With focused training, these vital skills for the workplace can be enhanced. An approach that is widely used for training in several industries, is also a blooming factor in the computing field, is the use of virtual reality for multiple therapeutic, recreational, educative purposes. Virtual reality providing a simulated environment that could be used for training people with special needs by exposing them which to a simulated version of the workplace they will be working at. This will help them overcome social awkwardness as they would become more comfortable with the workplace environment.

Published
2017

31. Establishing the involvement of the novel gene AGBL5 in retinitis pigmentosa by whole genome sequencing

Author

John R. Heckenlively, Naoki Nariai, Kelly A. Frazer, Kari Branham, David Jakubosky, Paul A. Sieving, John Suk, Pooja Biswas, Tao Long, Michael A. Hicks, Amalio Telenti, Radha Ayyagari, He Li, Aditya A. Guru, and Hiroko Matsui

Subjects
0301 basic medicine, Male, Adolescent, Physiology, DNA Mutational Analysis, Carboxypeptidases, Biology, medicine.disease_cause, Compound heterozygosity, Genome, 03 medical and health sciences, symbols.namesake, Young Adult, Retinitis pigmentosa, Genetics, medicine, Electroretinography, Humans, Copy-number variation, Gene, Genetic Association Studies, Whole genome sequencing, Sanger sequencing, Mutation, Whole Genome Sequencing, Retinal Degeneration, General Interest, medicine.disease, Pedigree, 030104 developmental biology, symbols, Female, Retinitis Pigmentosa
Abstract

While more than 250 genes are known to cause inherited retinal degenerations (IRD), nearly 40–50% of families have the genetic basis for their disease unknown. In this study we sought to identify the underlying cause of IRD in a family by whole genome sequence (WGS) analysis. Clinical characterization including standard ophthalmic examination, fundus photography, visual field testing, electroretinography, and review of medical and family history was performed. WGS was performed on affected and unaffected family members using Illumina HiSeq X10. Sequence reads were aligned to hg19 using BWA-MEM and variant calling was performed with Genome Analysis Toolkit. The called variants were annotated with SnpEff v4.11, PolyPhen v2.2.2, and CADD v1.3. Copy number variations were called using Genome STRiP (svtoolkit 2.00.1611) and SpeedSeq software. Variants were filtered to detect rare potentially deleterious variants segregating with disease. Candidate variants were validated by dideoxy sequencing. Clinical evaluation revealed typical adolescent-onset recessive retinitis pigmentosa (arRP) in affected members. WGS identified about 4 million variants in each individual. Two rare and potentially deleterious compound heterozygous variants p.Arg281Cys and p.Arg487* were identified in the gene ATP/GTP binding protein like 5 ( AGBL5) as likely causal variants. No additional variants in IRD genes that segregated with disease were identified. Mutation analysis confirmed the segregation of these variants with the IRD in the pedigree. Homology models indicated destabilization of AGBL5 due to the p.Arg281Cys change. Our findings establish the involvement of mutations in AGBL5 in RP and validate the WGS variant filtering pipeline we designed.

Published
2016

32. Genetic analysis of 10 pedigrees with inherited retinal degeneration by exome sequencing and phenotype-genotype association

Author

John R. Heckenlively, Pauline Lee, Pooja Biswas, Gislin Dagnelie, Bruno Maranhao, Kari Branham, John Suk, Igor Kozak, S. Amer Riazuddin, Luis Alexandre Rassi Gabriel, Jacque L. Duncan, Giulio Barteselli, Jonathan H. Lin, Richard G. Weleber, Mili Navani, Catherine L. Schlechter, Radha Ayyagari, and Michelle Parke

Subjects
0301 basic medicine, Retinal degeneration, Male, cis-trans-Isomerases, Genotype, Physiology, DNA Mutational Analysis, Pedigree chart, Biology, Bioinformatics, Genetic analysis, 03 medical and health sciences, Genetics, medicine, Humans, Exome, Exome sequencing, Genetic Association Studies, Alkyl and Aryl Transferases, ADP-Ribosylation Factors, Retinal Degeneration, medicine.disease, Phenotype, Pedigree, Phosphotransferases (Alcohol Group Acceptor), 030104 developmental biology, Mutation, Phenotype genotype, ATP-Binding Cassette Transporters, Female, Usher Syndromes, Research Article
Abstract

Our purpose was to identify causative mutations and characterize the phenotype associated with the genotype in 10 unrelated families with autosomal recessive retinal degeneration. Ophthalmic evaluation and DNA isolation were carried out in 10 pedigrees with inherited retinal degenerations (IRD). Exomes of probands from eight pedigrees were captured using Nimblegen V2/V3 or Agilent V5+UTR kits, and sequencing was performed on Illumina HiSeq. The DHDDS gene was screened for mutations in the remaining two pedigrees with Ashkenazi Jewish ancestry. Exome variants were filtered to detect candidate causal variants using exomeSuite software. Segregation and ethnicity-matched control sample analysis were performed by dideoxy sequencing. Retinal histology of a patient with DHDDS mutation was studied by microscopy. Genetic analysis identified six known mutations in ABCA4 (p.Gly1961Glu, p.Ala1773Val, c.5461–10T>C), RPE65 (p.Tyr249Cys, p.Gly484Asp), PDE6B (p.Lys706Ter) and DHDDS (p.Lys42Glu) and ten novel potentially pathogenic variants in CERKL (p.Met323Val fsX20), RPE65 (p.Phe252Ser, Thr454Leu fsX31), ARL6 (p.Arg121His), USH2A (p.Gly3142Ter, p.Cys3294Trp), PDE6B (p.Gln652Ter), and DHDDS (p.Thr206Ala) genes. Among these, variants/mutations in two separate genes were observed to segregate with IRD in two pedigrees. Retinal histopathology of a patient with a DHDDS mutation showed severe degeneration of retinal layers with relative preservation of the retinal pigment epithelium. Analysis of exome variants in ten pedigrees revealed nine novel potential disease-causing variants and nine previously reported homozygous or compound heterozygous mutations in the CERKL, ABCA4, RPE65, ARL6, USH2A, PDE6B, and DHDDS genes. Mutations that could be sufficient to cause pathology were observed in more than one gene in one pedigree.

Published
2016

33. Ocular Phenotype of a Family with FAM161A-associated Retinal Degeneration

Author

Radha Ayyagari, Moreno Menghini, Shiri Soudry, Rafael C. Caruso, Mili Navani, Pauline Lee, Reema Syed, Brett G. Jeffrey, Jacque L. Duncan, Austin Roorda, G. Bhanuprakash Reddy, Pooja Biswas, Igor Kozak, and John R. Heckenlively

Subjects
Retinal degeneration, Proband, Male, Exome sequencing, Pathology, Visual acuity, genetic structures, DNA Mutational Analysis, Visual Acuity, Blindness, Eye, Ophthalmology & Optometry, 2.1 Biological and endogenous factors, Exome, Aetiology, Tomography, Genetics (clinical), medicine.diagnostic_test, Retinal Degeneration, Middle Aged, Scanning laser ophthalmoscopy, Pedigree, Phenotype, Codon, Nonsense, Female, medicine.symptom, Erg, Tomography, Optical Coherence, Adult, medicine.medical_specialty, Biology, Article, Clinical Research, Opthalmology and Optometry, medicine, Electroretinography, Genetics, Humans, FAM161A, Eye Proteins, Codon, Eye Disease and Disorders of Vision, Aged, Human Genome, Neurosciences, medicine.disease, Ophthalmology, Nonsense, Optical Coherence, Pediatrics, Perinatology and Child Health, Visual Field Tests, Visual Fields
Abstract

BackgroundCharacterization of retinal degeneration (RD) using high-resolution retinal imaging and exome sequencing may identify phenotypic features that correspond with specific genetic defects.Materials and methodsSix members from a non-consanguineous Indian family (three affected siblings, their asymptomatic parents and an asymptomatic child) were characterized clinically, using visual acuity, perimetry, full-field electroretinography (ERG), optical coherence tomography and cone structure as outcome measures. Cone photoreceptors were imaged in the proband using adaptive optics scanning laser ophthalmoscopy. The exome was captured using Nimblegen SeqCap EZ V3.0 probes and sequenced using lllumina HiSeq. Reads were mapped to reference hg19. Confirmation of variants and segregation analysis was performed using dideoxy sequencing.ResultsAnalysis of exome variants using exomeSuite identified five homozygous variants in four genes known to be associated with RD. Further analysis revealed a homozygous nonsense mutation, c.1105 C > T, p.Arg335Ter, in the FAM161A gene segregating with RD. Three additional variants were found to occur at high frequency. Affected members showed a range of disease severity beginning at different ages, but all developed severe visual field and outer retinal loss.ConclusionsExome analysis revealed a nonsense homozygous mutation in FAM161A segregating with RD with severe vision loss and a range of disease onset and progression. Loss of outer retinal structures demonstrated with high-resolution retinal imaging suggests FAM161A is important for normal photoreceptor structure and survival. Exome sequencing may identify causative genetic variants in autosomal recessive RD families when other genetic test strategies fail to identify a mutation.

Published
2016

34. Investigating the Molecular Basis of Retinal Degeneration in a Familial Cohort of Pakistani Decent by Exome Sequencing

Author

Sheikh Riazuddin, Muhammad Asif Naeem, Justin Chu, Sheen N. Khan, Alexander D. H. Gottsch, Pooja Biswas, John Suk, Rachel Poleman, S. Amer Riazuddin, Javed Akram, Pauline Lee, Radha Ayyagari, Mili Navani, J. Fielding Hejtmancik, Bruno Maranhao, and Sharon, Dror

Subjects
Retinal degeneration, Male, Messenger, lcsh:Medicine, Pedigree chart, Bioinformatics, Consanguinity, Ethnicity, 2.1 Biological and endogenous factors, Exome, Pakistan, Aetiology, Age of Onset, lcsh:Science, Exome sequencing, Genetics, Multidisciplinary, medicine.diagnostic_test, Retinal Degeneration, Single Nucleotide, 3. Good health, Pedigree, Phenotype, Cohort, Female, Sequence Analysis, Research Article, Genotype, General Science & Technology, Fundus Oculi, Ethnic Groups, Genes, Recessive, Biology, Polymorphism, Single Nucleotide, Clinical Research, otorhinolaryngologic diseases, medicine, Electroretinography, Recessive, Humans, RNA, Messenger, Polymorphism, Eye Proteins, Eye Disease and Disorders of Vision, Genetic Association Studies, Sequence Analysis, RNA, lcsh:R, medicine.disease, Genes, Mutation, RNA, lcsh:Q, Age of onset, Sequence Alignment
Abstract

PURPOSE:To define the molecular basis of retinal degeneration in consanguineous Pakistani pedigrees with early onset retinal degeneration. METHODS:A cohort of 277 individuals representing 26 pedigrees from the Punjab province of Pakistan was analyzed. Exomes were captured with commercial kits and sequenced on an Illumina HiSeq 2500. Candidate variants were identified using standard tools and analyzed using exomeSuite to detect all potentially pathogenic changes in genes implicated in retinal degeneration. Segregation analysis was performed by dideoxy sequencing and novel variants were additionally investigated for their presence in ethnicity-matched controls. RESULTS:We identified a total of nine causal mutations, including six novel variants in RPE65, LCA5, USH2A, CNGB1, FAM161A, CERKL and GUCY2D as the underlying cause of inherited retinal degenerations in 13 of 26 pedigrees. In addition to the causal variants, a total of 200 variants each observed in five or more unrelated pedigrees investigated in this study that were absent from the dbSNP, HapMap, 1000 Genomes, NHLBI ESP6500, and ExAC databases were identified, suggesting that they are common in, and unique to the Pakistani population. CONCLUSIONS:We identified causal mutations associated with retinal degeneration in nearly half of the pedigrees investigated in this study through next generation whole exome sequencing. All novel variants detected in this study through exome sequencing have been cataloged providing a reference database of variants common in, and unique to the Pakistani population.

Published
2015

35. Correction: Gustafson et al., Whole Genome Sequencing Revealed Mutations in Two Independent Genes as the Underlying Cause of Retinal Degeneration in an Ashkenazi Jewish Pedigree. Genes 2017, 8, 210

Author

Pooja Biswas, John Suk, Jacque L. Duncan, Amalio Telenti, David Jakubosky, Kevin Gustafson, Kelly A. Frazer, Hiroko Matsui, Radha Ayyagari, and Angel Soto-Hermida

Subjects
0301 basic medicine, Whole genome sequencing, Retinal degeneration, Genetics, retina, lcsh:QH426-470, Biology, medicine.disease, Article, lcsh:Genetics, 03 medical and health sciences, n/a, 030104 developmental biology, retinitis pigmentosa, medicine, Ashkenazi Jewish, Gene, Genetics (clinical), Rest (music)
Abstract

Retinitis pigmentosa (RP) causes progressive photoreceptor loss resulting from mutations in over 80 genes. This study identified the genetic cause of RP in three members of a non-consanguineous pedigree. Detailed ophthalmic evaluation was performed in the three affected family members. Whole exome sequencing (WES) and whole genome sequencing (WGS) were performed in the three affected and the two unaffected family members and variants were filtered to detect rare, potentially deleterious variants segregating with disease. WES and WGS did not identify potentially pathogenic variants shared by all three affected members. However, WES identified a previously reported homozygous nonsense mutation in KIZ (c.226C>T, p.Arg76*) in two affected sisters, but not in their affected second cousin. WGS revealed a novel 1.135 kb homozygous deletion in a retina transcript of C21orf2 and a novel 30.651 kb heterozygous deletion in CACNA2D4 in the affected second cousin. The sisters with the KIZ mutation carried no copies of the C21orf2 or CACNA2D4 deletions, while the second cousin with the C21orf2 and CACNA2D4 deletions carried no copies of the KIZ mutation. This study identified two independent, homozygous mutations in genes previously reported in autosomal recessive RP in a non-consanguineous family, and demonstrated the value of WGS when WES fails to identify likely disease-causing mutations.

Published
2017

36. exomeSuite: Whole exome sequence variant filtering tool for rapid identification of putative disease causing SNVs/indels

Author

John R. Heckenlively, Gabriel A. Silva, Muhammad Asif Naeem, Bruno Maranhao, S. A. Riazuddin, Pauline Lee, Shahid Niaz Khan, Radha Ayyagari, James F. Hejtmancik, Sheikh Riazuddin, Jacque L. Duncan, Kari Branham, and Pooja Biswas

Subjects
Male, Heterozygote, DNA Mutational Analysis, Datasets as Topic, Genome-wide association study, Biology, Compound heterozygosity, Polymorphism, Single Nucleotide, Article, INDEL Mutation, Homozygosity mapping, Genetics, Humans, 2.1 Biological and endogenous factors, Exome, Allele, Polymorphism, Aetiology, Indel, Exome sequencing, Alleles, Genetics & Heredity, Homozygote, Human Genome, Genetic Diseases, Inborn, Single Nucleotide, Disease gene identification, Pedigree, Inborn, Genetic Diseases, Female, Mendelian disease, Filtering, Software, Genome-Wide Association Study, Information Systems
Abstract

Exome and whole-genome analyses powered by next-generation sequencing (NGS) have become invaluable tools in identifying causal mutations responsible for Mendelian disorders. Given that individual exomes contain several thousand single nucleotide variants and insertions/deletions, it remains a challenge to analyze large numbers of variants from multiple exomes to identify causal alleles associated with inherited conditions. To this end, we have developed user-friendly software that analyzes variant calls from multiple individuals to facilitate identification of causal mutations. The software, termed exomeSuite, filters for putative causative variants of monogenic diseases inherited in one of three forms: dominant, recessive caused by a homozygous variant, or recessive caused by two compound heterozygous variants. In addition, exomeSuite can perform homozygosity mapping and analyze the variant data of multiple unrelated individuals. Here we demonstrate that filtering of variants with exomeSuite reduces datasets to a fraction of a percent of their original size. To the best of our knowledge this is the first freely available software developed to analyze variant data from multiple individuals that rapidly assimilates and filters large data sets based on pattern of inheritance.

Published
2014

37. Adaptive call admission control scheme with optimal resource allocation for multi-class cellular networks

Author

Pooja Biswas, Uma Bhattacharya, Abhijit Sharma, and Purna Kar

Subjects
General Computer Science, Computer science, business.industry, Quality of service, Distributed computing, Call Admission Control, Bandwidth allocation, Bandwidth (computing), Cellular network, Paging, File transfer, Electrical and Electronic Engineering, business, Call blocking, Computer network
Abstract

There exists an increasing demand by an ever-growing number of mobile customers for transfer of rich media contents such as video conferencing, file transfer and retrieval service, e-mail, paging, fax in addition to simple voice calls. This requires very high bandwidth that cannot be provided by the current cellular systems maintaining quality of service QoS because of limited bandwidth capacity. In this paper, a new adaptive call admission control scheme is proposed for allocating bandwidth optimally as well as provisioning QoS to the mobile users so far as practicable. In addition to these services, the proposed scheme during congestion also attempts to maximise the number of served calls in a cell to satisfy maximum number of users. Extensive simulation results show that the proposed scheme outperforms the existing schemes in terms of call blocking probability, system delay and bandwidth utilisation.

Published
2015

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