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3. Whole genome sequencing of Ethiopian highlanders reveals conserved hypoxia tolerance genes

Author

Yuanping Du, Nitin Udpa, Mehila Zibenigus, Siqi Liu, Ye Yin, Roger Hainsworth, Kelly A. Frazer, Dan Zhou, Chen Huang, Tsering Stobdan, Victoria E. Claydon, Jin Xue, Guangwu Guo, Lixia Guo, Roy Ronen, Yingrui Li, Vineet Bafna, Yu Wang, Gabriel G. Haddad, Jorge L. Gamboa, Dandan Cao, Guta Zenebe, Junbin Liang, Xin Jin, Otto Appenzeller, Rui Cao, and Wenlong Jia

Subjects
Acclimatization, Sequence Homology, Genome, Ethnicity, Hypoxia, Exome sequencing, 2. Zero hunger, Genetics, education.field_of_study, Altitude, High-Throughput Nucleotide Sequencing, Single Nucleotide, Biological Sciences, Amino Acid, Drosophila, Biotechnology, Human, Bioinformatics, 1.1 Normal biological development and functioning, Population, Ethnic Groups, Biology, Polymorphism, Single Nucleotide, Chromosomes, Underpinning research, Information and Computing Sciences, Animals, Humans, Polymorphism, education, Gene, Whole genome sequencing, Sequence Homology, Amino Acid, Pair 19, Genome, Human, Research, Human Genome, Genetic Variation, Human genetics, Oxygen, Genetics, Population, Evolutionary biology, Human genome, Ethiopia, Selective sweep, Chromosomes, Human, Pair 19, Environmental Sciences
Abstract

Background Although it has long been proposed that genetic factors contribute to adaptation to high altitude, such factors remain largely unverified. Recent advances in high-throughput sequencing have made it feasible to analyze genome-wide patterns of genetic variation in human populations. Since traditionally such studies surveyed only a small fraction of the genome, interpretation of the results was limited. Results We report here the results of the first whole genome resequencing-based analysis identifying genes that likely modulate high altitude adaptation in native Ethiopians residing at 3,500 m above sea level on Bale Plateau or Chennek field in Ethiopia. Using cross-population tests of selection, we identify regions with a significant loss of diversity, indicative of a selective sweep. We focus on a 208 kbp gene-rich region on chromosome 19, which is significant in both of the Ethiopian subpopulations sampled. This region contains eight protein-coding genes and spans 135 SNPs. To elucidate its potential role in hypoxia tolerance, we experimentally tested whether individual genes from the region affect hypoxia tolerance in Drosophila. Three genes significantly impact survival rates in low oxygen: cic, an ortholog of human CIC, Hsl, an ortholog of human LIPE, and Paf-AHα, an ortholog of human PAFAH1B3. Conclusions Our study reveals evolutionarily conserved genes that modulate hypoxia tolerance. In addition, we show that many of our results would likely be unattainable using data from exome sequencing or microarray studies. This highlights the importance of whole genome sequencing for investigating adaptation by natural selection.

Published
2014

4. Whole-genome sequencing uncovers the genetic basis of chronic mountain sickness in Andean highlanders

Author

Lixia Guo, Roy Ronen, Yuanping Du, Wenlong Jia, Francisco C. Villafuerte, Vineet Bafna, Dandan Cao, Dan Zhou, Gabriel G. Haddad, Yu Wang, Rui Cao, Junbin Liang, Yi Yin, Huiwen W. Zhao, Tsering Stobdan, Otto Appenzeller, Nitin Udpa, Chen Huang, Jin Xue, Siqi Liu, Yingrui Li, Guangwu Guo, David Callacondo, Xin Jin, Kelly A. Frazer, and Jorge L. Gamboa

Subjects
Male, haplotype, genotype, animal cell, adaptation, Altitude Sickness, Genome, Medical and Health Sciences, 0302 clinical medicine, Anoxia, Peru, 2.1 Biological and endogenous factors, Genetics(clinical), Aetiology, Hypoxia, SENP1 gene, Genetics (clinical), Genetics, Genetics & Heredity, clinical article, 0303 health sciences, education.field_of_study, altitude disease, article, Genomics, Biological Sciences, haplotype map, ANP32D gene, Chronic mountain sickness, Drosophila melanogaster, priority journal, Female, down regulation, Sequence Analysis, Human, Biotechnology, survival rate, Adult, Population, Down-Regulation, gene sequence, Biology, Article, 03 medical and health sciences, medicine, Animals, Humans, controlled study, gene, education, Genetic Association Studies, 030304 developmental biology, Whole genome sequencing, hypoxemia, Genome, Human, human cell, Haplotype, Human Genome, genetic transcription, Reproducibility of Results, Sequence Analysis, DNA, DNA, medicine.disease, major clinical study, Survival Analysis, human tissue, Human genetics, Genetics, Population, Chronic Disease, gene expression, Human genome, exome, 030217 neurology & neurosurgery, purl.org/pe-repo/ocde/ford#1.06.07 [https]
Abstract

The hypoxic conditions at high altitudes present a challenge for survival, causing pressure for adaptation. Interestingly, many high-altitude denizens (particularly in the Andes) are maladapted, with a condition known as chronic mountain sickness (CMS) or Monge disease. To decode the genetic basis of this disease, we sequenced and compared the whole genomes of 20 Andean subjects (10 with CMS and 10 without). We discovered 11 regions genome-wide with significant differences in haplotype frequencies consistent with selective sweeps. In these regions, two genes (an erythropoiesis regulator, SENP1, and an oncogene, ANP32D) had a higher transcriptional response to hypoxia in individuals with CMS relative to those without. We further found that downregulating the orthologs of these genes in flies dramatically enhanced survival rates under hypoxia, demonstrating that suppression of SENP1 and ANP32D plays an essential role in hypoxia tolerance. Our study provides an unbiased framework to identify and validate the genetic basis of adaptation to high altitudes and identifies potentially targetable mechanisms for CMS treatment.

Published
2013

5. Exome Sequencing Can Improve Diagnosis and Alter Patient Management

Author

Kiran V. Garimella, Lobna Mansour, Gaia Novarino, Matloob Azam, Figen Celep, Vineet Bafna, Sawsan Abdel-Hadi, Naima Marzouki, Jennifer L. Silhavy, Nouriya A. Al-Saana, Maha S. Zaki, Carrie Sougnez, Joseph G. Gleeson, F. Müjgan Sönmez, Jesus Olvera, Adrienne Collazo, Carsten Russ, Tawfeg Ben-Omran, Stacey Gabriel, Kiley J. Hill, Nitin Udpa, Jana Schroth, Naiara Akizu, Stephanie L. Bielas, Ashleigh E. Schaffer, Tracy Dixon-Salazar, Ali G. Fenstermaker, Laila Selim, and Ghada M. H. Abdel-Salam

Subjects
Male, Proband, Mutation, Microcephaly, Genetics and epigenetic pathways of disease [NCMLS 6], Vesicular Transport Proteins, Sequence Analysis, DNA, General Medicine, Disease, Biology, medicine.disease_cause, medicine.disease, Bioinformatics, Article, Joubert syndrome, Pedigree, Cohort, medicine, Humans, Exome, Female, Exome sequencing
Abstract

Item does not contain fulltext The translation of "next-generation" sequencing directly to the clinic is still being assessed but has the potential for genetic diseases to reduce costs, advance accuracy, and point to unsuspected yet treatable conditions. To study its capability in the clinic, we performed whole-exome sequencing in 118 probands with a diagnosis of a pediatric-onset neurodevelopmental disease in which most known causes had been excluded. Twenty-two genes not previously identified as disease-causing were identified in this study (19% of cohort), further establishing exome sequencing as a useful tool for gene discovery. New genes identified included EXOC8 in Joubert syndrome and GFM2 in a patient with microcephaly, simplified gyral pattern, and insulin-dependent diabetes. Exome sequencing uncovered 10 probands (8% of cohort) with mutations in genes known to cause a disease different from the initial diagnosis. Upon further medical evaluation, these mutations were found to account for each proband's disease, leading to a change in diagnosis, some of which led to changes in patient management. Our data provide proof of principle that genomic strategies are useful in clarifying diagnosis in a proportion of patients with neurodevelopmental disorders.

Published
2012
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6. Experimental selection of hypoxia-tolerant Drosophila melanogaster

Author

Shankar Subramaniam, Vineet Bafna, James W. Posakony, Kelly A. Frazer, Dan Zhou, Nitin Udpa, DeeAnn W. Visk, Merril Gersten, Gabriel G. Haddad, Jin Xue, and Ali Bashir

Subjects
X Chromosome, Notch signaling pathway, medicine, Animals, Drosophila Proteins, Selection, Genetic, Hypoxia, Gene, Genetics, Gene knockdown, Multidisciplinary, biology, Receptors, Notch, fungi, DNA, Dipeptides, Hypoxia (medical), Biological Sciences, biology.organism_classification, Adaptation, Physiological, Chromosomes, Insect, Protein Structure, Tertiary, Gene expression profiling, Drosophila melanogaster, Notch proteins, Mutation, medicine.symptom, Amyloid Precursor Protein Secretases, Drosophila Protein
Abstract

Through long-term laboratory selection (over 200 generations), we have generated Drosophila melanogaster populations that tolerate severe, normally lethal, levels of hypoxia. Because of initial experiments suspecting genetic mechanisms underlying this adaptation, we compared the genomes of the hypoxia-selected flies with those of controls using deep resequencing. By applying unique computing and analytical methods we identified a number of DNA regions under selection, mostly on the X chromosome. Several of the hypoxia-selected regions contained genes encoding or regulating the Notch pathway. In addition, previous expression profiling revealed an activation of the Notch pathway in the hypoxia-selected flies. We confirmed the contribution of Notch activation to hypoxia tolerance using a specific γ-secretase inhibitor, N-[N-(3,5-Difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT), which significantly reduced adult survival and life span in the hypoxia-selected flies. We also demonstrated that flies with loss-of-function Notch mutations or RNAi-mediated Notch knockdown had a significant reduction in hypoxia tolerance, but those with a gain-of-function had a dramatic opposite effect. Using the UAS-Gal4 system, we also showed that specific overexpression of the Notch intracellular domain in glial cells was critical for conferring hypoxia tolerance. Unique analytical tools and genetic and bioinformatic strategies allowed us to discover that Notch activation plays a major role in this hypoxia tolerance in Drosophila melanogaster .

Published
2011

7. Toward decision support for breast reconstruction: automated calculation of symmetry measure on clinical photographs

Author

Mugdha, Dabeer, Matthew, Kyrish, Min Soon, Kim, Peter, Reyes, Nitin, Udpa, Gregory P, Reece, and Mia K, Markey

Subjects
Surgery, Computer-Assisted, Image Interpretation, Computer-Assisted, Photography, Humans, Female, Breast, Plastic Surgery Procedures, Decision Support Systems, Clinical, Mastectomy, Pattern Recognition, Automated
Abstract

The quality of life of breast cancer survivors is maintained by minimizing adverse effects on their physical appearance. In this study, we present an automated method for computing a common measure of breast symmetry, the normalized Breast Retraction Assessment (pBRA), from routine clinical photographs taken to document breast reconstruction procedures.

Published
2008

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