Your search keyword '"Efren, Sandoval"' showing total 21 results

1. Los comerciantes de los tianguis y la conformación de la ciudad transnacional de Monterrey

Author

Efren Sandoval

Subjects

Social sciences (General), H1-99, Sociology (General), HM401-1281

Abstract

A partir del caso de los comerciantes de los tianguis de Monterrey, México, este artículo tiene como argumento central la conformación de la “ciudad transnacional” basada en relaciones sociales “desde abajo”. Los comerciantes organizan su actividad en conjunto con sus parientes emigrados a Estados Unidos, principalmente a Texas, y que en algunos casos son los emigrados quienes se instalan a vender en los tianguis. Esta organización implica viajes constantes entre Monterrey y Texas, el transporte de mercancías y el intercambio de favores entre miembros de “familias transnacionales. Para demostrar lo anterior, se presentan ejemplos que evidencian la diversidad de casos.

Published

2023

2. Exome-wide association study to identify rare variants influencing COVID-19 outcomes: Results from the Host Genetics Initiative.

Author

Guillaume Butler-Laporte, Gundula Povysil, Jack A Kosmicki, Elizabeth T Cirulli, Theodore Drivas, Simone Furini, Chadi Saad, Axel Schmidt, Pawel Olszewski, Urszula Korotko, Mathieu Quinodoz, Elifnaz Çelik, Kousik Kundu, Klaudia Walter, Junghyun Jung, Amy D Stockwell, Laura G Sloofman, Daniel M Jordan, Ryan C Thompson, Diane Del Valle, Nicole Simons, Esther Cheng, Robert Sebra, Eric E Schadt, Seunghee Kim-Schulze, Sacha Gnjatic, Miriam Merad, Joseph D Buxbaum, Noam D Beckmann, Alexander W Charney, Bartlomiej Przychodzen, Timothy Chang, Tess D Pottinger, Ning Shang, Fabian Brand, Francesca Fava, Francesca Mari, Karolina Chwialkowska, Magdalena Niemira, Szymon Pula, J Kenneth Baillie, Alex Stuckey, Antonio Salas, Xabier Bello, Jacobo Pardo-Seco, Alberto Gómez-Carballa, Irene Rivero-Calle, Federico Martinón-Torres, Andrea Ganna, Konrad J Karczewski, Kumar Veerapen, Mathieu Bourgey, Guillaume Bourque, Robert Jm Eveleigh, Vincenzo Forgetta, David Morrison, David Langlais, Mark Lathrop, Vincent Mooser, Tomoko Nakanishi, Robert Frithiof, Michael Hultström, Miklos Lipcsey, Yanara Marincevic-Zuniga, Jessica Nordlund, Kelly M Schiabor Barrett, William Lee, Alexandre Bolze, Simon White, Stephen Riffle, Francisco Tanudjaja, Efren Sandoval, Iva Neveux, Shaun Dabe, Nicolas Casadei, Susanne Motameny, Manal Alaamery, Salam Massadeh, Nora Aljawini, Mansour S Almutairi, Yaseen M Arabi, Saleh A Alqahtani, Fawz S Al Harthi, Amal Almutairi, Fatima Alqubaishi, Sarah Alotaibi, Albandari Binowayn, Ebtehal A Alsolm, Hadeel El Bardisy, Mohammad Fawzy, Fang Cai, Nicole Soranzo, Adam Butterworth, COVID-19 Host Genetics Initiative, DeCOI Host Genetics Group, GEN-COVID Multicenter Study (Italy), Mount Sinai Clinical Intelligence Center, GEN-COVID consortium (Spain), GenOMICC Consortium, Japan COVID-19 Task Force, Regeneron Genetics Center, Daniel H Geschwind, Stephanie Arteaga, Alexis Stephens, Manish J Butte, Paul C Boutros, Takafumi N Yamaguchi, Shu Tao, Stefan Eng, Timothy Sanders, Paul J Tung, Michael E Broudy, Yu Pan, Alfredo Gonzalez, Nikhil Chavan, Ruth Johnson, Bogdan Pasaniuc, Brian Yaspan, Sandra Smieszek, Carlo Rivolta, Stephanie Bibert, Pierre-Yves Bochud, Maciej Dabrowski, Pawel Zawadzki, Mateusz Sypniewski, Elżbieta Kaja, Pajaree Chariyavilaskul, Voraphoj Nilaratanakul, Nattiya Hirankarn, Vorasuk Shotelersuk, Monnat Pongpanich, Chureerat Phokaew, Wanna Chetruengchai, Katsushi Tokunaga, Masaya Sugiyama, Yosuke Kawai, Takanori Hasegawa, Tatsuhiko Naito, Ho Namkoong, Ryuya Edahiro, Akinori Kimura, Seishi Ogawa, Takanori Kanai, Koichi Fukunaga, Yukinori Okada, Seiya Imoto, Satoru Miyano, Serghei Mangul, Malak S Abedalthagafi, Hugo Zeberg, Joseph J Grzymski, Nicole L Washington, Stephan Ossowski, Kerstin U Ludwig, Eva C Schulte, Olaf Riess, Marcin Moniuszko, Miroslaw Kwasniewski, Hamdi Mbarek, Said I Ismail, Anurag Verma, David B Goldstein, Krzysztof Kiryluk, Alessandra Renieri, Manuel A R Ferreira, and J Brent Richards

Subjects

Genetics, QH426-470

Abstract

Host genetics is a key determinant of COVID-19 outcomes. Previously, the COVID-19 Host Genetics Initiative genome-wide association study used common variants to identify multiple loci associated with COVID-19 outcomes. However, variants with the largest impact on COVID-19 outcomes are expected to be rare in the population. Hence, studying rare variants may provide additional insights into disease susceptibility and pathogenesis, thereby informing therapeutics development. Here, we combined whole-exome and whole-genome sequencing from 21 cohorts across 12 countries and performed rare variant exome-wide burden analyses for COVID-19 outcomes. In an analysis of 5,085 severe disease cases and 571,737 controls, we observed that carrying a rare deleterious variant in the SARS-CoV-2 sensor toll-like receptor TLR7 (on chromosome X) was associated with a 5.3-fold increase in severe disease (95% CI: 2.75-10.05, p = 5.41x10-7). This association was consistent across sexes. These results further support TLR7 as a genetic determinant of severe disease and suggest that larger studies on rare variants influencing COVID-19 outcomes could provide additional insights.

Published

2022

3. The ‘Arrangement’ as Form of Life on the Mexico-Texas borderline: A Perspective on Smuggling

Author

Efren Sandoval-Hernández

Subjects

smuggling, forms of life, language games, mexico’s border, texas border, Social pathology. Social and public welfare. Criminology, HV1-9960, Social history and conditions. Social problems. Social reform, HN1-995

Abstract

This article aims to explain the smuggling of goods in the Mexico-US border from Wittgenstein’s perspective on the worlds of life and language games. This work advocates for an approach that considers the diversity of circumstances, the hierarchical inequalities, the amalgam between actors and ‘legal’ and ‘illegal’ activities, and the ‘arrangements’ happening as part of the way each individual interprets whatever he watches, and what he and those he is interacting with are doing. This work is based on observations and interviews with merchants and customs employees that make ‘arrangements.’ The question to be answered is: what are the meanings and assumptions that make such ‘arrangements’ happen between merchants and customs employees, so that the goods can cross the border illegally? Based on Wittgenstein’s perspective, this paper also tries to analyze the ‘irony’ resulting from the transformation of the ‘arrangement’ once the drug cartel members started participating in it.

Published

2021

4. Genome-wide rare variant analysis for thousands of phenotypes in over 70,000 exomes from two cohorts

Author

Elizabeth T. Cirulli, Simon White, Robert W. Read, Gai Elhanan, William J. Metcalf, Francisco Tanudjaja, Donna M. Fath, Efren Sandoval, Magnus Isaksson, Karen A. Schlauch, Joseph J. Grzymski, James T. Lu, and Nicole L. Washington

Subjects

Science

Abstract

Population-based association analyses of rare genetic variants with complex traits are limited by the availability of data from sufficiently large cohorts. Here, Cirulli et al. report gene-based collapsing analysis of exomes from 49,960 participants of the UK Biobank and 21,866 participants of the Healthy Nevada Project over a total of 4377 traits.

Published

2020

5. A Method for Variant Agnostic Detection of SARS-CoV-2, Rapid Monitoring of Circulating Variants, and Early Detection of Emergent Variants Such as Omicron

Author

Eric Lai, Emily B. Kennedy, Jean Lozach, Kathleen Hayashibara, Jeremy Davis-Turak, David Becker, Pius Brzoska, Tyler Cassens, Evan Diamond, Manoj Gandhi, Alexander L. Greninger, Pooneh Hajian, Nicole A. Leonetti, Jason M. Nguyen, K. M. Clair O’Donovan, Troy Peck, Jimmy M. Ramirez, Pavitra Roychoudhury, Efren Sandoval, Cassandra Wesselman, Timothy Wesselman, Simon White, Stephen Williams, David Wong, Yufei Yu, and Richard S. Creager

Subjects

Microbiology (medical), SARS-CoV-2, COVID-19, Humans, Nucleic Acid Amplification Techniques, Retrospective Studies

Abstract

The rapid emergence of SARS-CoV-2 variants raised public health questions concerning the capability of diagnostic tests to detect new strains, the efficacy of vaccines, and how to map the geographical distribution of variants to understand transmission patterns and loads on healthcare resources. Next-generation sequencing (NGS) is the primary method for detecting and tracing new variants, but it is expensive, and it can take weeks before sequence data are available in public repositories. This article describes a customizable reverse transcription PCR (RT-PCR)-based genotyping approach which is significantly less expensive, accelerates reporting, and can be implemented in any lab that performs RT-PCR. Specific single-nucleotide polymorphisms (SNPs) and indels were identified which had high positive-percent agreement (PPA) and negative-percent agreement (NPA) compared to NGS for the major genotypes that circulated through September 11, 2021. Using a 48-marker panel, testing on 1,031 retrospective SARS-CoV-2 positive samples yielded a PPA and NPA ranging from 96.3 to 100% and 99.2 to 100%, respectively, for the top 10 most prevalent World Health Organization (WHO) lineages during that time. The effect of reducing the quantity of panel markers was explored, and a 16-marker panel was determined to be nearly as effective as the 48-marker panel at lineage assignment. Responding to the emergence of Omicron, a genotyping panel was developed which distinguishes Delta and Omicron using four highly specific SNPs. The results demonstrate the utility of the condensed panel to rapidly track the growing prevalence of Omicron across the US in December 2021 and January 2022.

Published

2022

6. Evidence for SARS-CoV-2 Delta and Omicron co-infections and recombination

Author

Alexandre Bolze, Tracy Basler, Simon White, Andrew Dei Rossi, Dana Wyman, Hang Dai, Pavitra Roychoudhury, Alexander L. Greninger, Kathleen Hayashibara, Mark Beatty, Seema Shah, Sarah Stous, John T. McCrone, Eric Kil, Tyler Cassens, Kevin Tsan, Jason Nguyen, Jimmy Ramirez, Scotty Carter, Elizabeth T. Cirulli, Kelly Schiabor Barrett, Nicole L. Washington, Pedro Belda-Ferre, Sharoni Jacobs, Efren Sandoval, David Becker, James T. Lu, Magnus Isaksson, William Lee, and Shishi Luo

Subjects

Coinfection, SARS-CoV-2, Humans, COVID-19, General Medicine, Genome, Viral, Orthopoxvirus

Abstract

Between November 2021 and February 2022, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Delta and Omicron variants co-circulated in the United States, allowing for co-infections and possible recombination events.We sequenced 29,719 positive samples during this period and analyzed the presence and fraction of reads supporting mutations specific to either the Delta or Omicron variant.We identified 18 co-infections, one of which displayed evidence of a low Delta-Omicron recombinant viral population. We also identified two independent cases of infection by a Delta-Omicron recombinant virus, where 100% of the viral RNA came from one clonal recombinant. In the three cases, the 5' end of the viral genome was from the Delta genome and the 3' end from Omicron, including the majority of the spike protein gene, though the breakpoints were different.Delta-Omicron recombinant viruses were rare, and there is currently no evidence that Delta-Omicron recombinant viruses are more transmissible between hosts compared with the circulating Omicron lineages.This research was supported by the NIH RADx initiative and by the Centers for Disease Control Contract 75D30121C12730 (Helix).

Published

2022

7. A method for variant agnostic detection of SARS-CoV-2, rapid monitoring of circulating variants, detection of mutations of biological significance, and early detection of emergent variants such as Omicron

Author

Eric Lai, David Becker, Pius Brzoska, Tyler Cassens, Jeremy Davis-Turak, Evan Diamond, Manohar Furtado, Manoj Gandhi, Dale Gort, Alexander L. Greninger, Pooneh Hajian, Kathleen Hayashibara, Emily B. Kennedy, Marc Laurent, William Lee, Nicole A. Leonetti, Jean Lozach, James Lu, Jason M. Nguyen, K. M. Clair O’Donovan, Troy Peck, Gail E. Radcliffe, Jimmy M. Ramirez, Pavitra Roychoudhury, Efren Sandoval, Brian Walsh, Marianne Weinell, Cassandra Wesselman, Timothy Wesselman, Simon White, Stephen Williams, David Wong, Yufei Yu, and Richard S. Creager

Abstract

The rapid emergence of new SARS-CoV-2 variants raises a number of public health questions including the capability of diagnostic tests to detect new strains, the efficacy of vaccines, and how to map the geographical distribution of variants to better understand patterns of transmission and possible load on healthcare resources. Next-Generation Sequencing (NGS) is the primary method for detecting and tracing the emergence of new variants, but it is expensive, and it can take weeks before sequence data is available in public repositories. Here, we describe a Polymerase Chain Reaction (PCR)-based genotyping approach that is significantly less expensive, accelerates reporting on SARS-CoV-2 variants, and can be implemented in any testing lab performing PCR.Specific Single Nucleotide Polymorphisms (SNPs) and indels are identified that have high positive percent agreement (PPA) and negative percent agreement (NPA) compared to NGS for the major genotypes that circulated in 2021. Using a 48-marker panel, testing on 1,128 retrospective samples yielded a PPA and NPA in the 96.3 to 100% and 99.2 to 100% range, respectively, for the top 10 most prevalent lineages. The effect on PPA and NPA of reducing the number of panel markers was also explored.In addition, with the emergence of Omicron, we also developed an Omicron genotyping panel that distinguishes the Delta and Omicron variants using four (4) highly specific SNPs. Data from testing demonstrates the capability to use the panel to rapidly track the growing prevalence of the Omicron variant in the United States in December 2021.

Published

2022

8. Evidence for SARS-CoV-2 Delta and Omicron Coinfections and Recombination

Author

Alexandre Bolze, Tracy Basler, Simon White, Andrew Dei Rossi, Dana Wyman, Pavitra Roychoudhury, Alex Greninger, Kathleen Hayashibara, Mark Beatty, Seema Shah, Sarah Stous, Eric Kil, Hang Dai, Tyler Cassens, Kevin Tsan, Jason Nguyen, Jimmy M. Ramirez III, Scotty Carter, Elizabeth T. Cirulli, Kelly M. Schiabor Barrett, Nicole L. Washington, Pedro Belda-Ferre, Sharoni Jacobs, Efren Sandoval, David Becker, James T. Lu, Magnus Isaksson, William Lee, and Shishi Luo

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

9. SARS-CoV-2 variant Delta rapidly displaced variant Alpha in the United States and led to higher viral loads

Author

Magnus Isaksson, Alexandre Bolze, James T. Lu, Jason Nguyen, Sharoni Jacobs, Kelly M. Schiabor Barrett, Xueqing Wang, Efren Sandoval, Dana Wyman, Nicole L. Washington, David M. Becker, Marc Laurent, William E. Lee, Kevin Tsan, Henrique Machado, Shishi Luo, Simon D. M. White, Andrew Dei Rossi, David T.W. Wong, Jimmy M. Ramirez, Elizabeth T. Cirulli, and Tyler Cassens

Subjects

Delta, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Alpha (ethology), Biology, Viral Sequencing, Virology, Viral load

Abstract

This study reports on the displacement of Alpha (B.1.1.7) by Delta (B.1.617.2 and its substrains AY.1, AY.2, and AY.3) in the United States. By analyzing RT-qPCR testing results and viral sequencing results of samples collected across the United States, we show that the percentage of SARS-CoV-2 positive cases caused by Alpha dropped from 67% in May 2021 to less than 3.0% in just 10 weeks. We also show that the Delta variant has outcompeted the Iota (B.1.526) variant of interest and Gamma (P.1) variant of concern. An analysis of the mean quantification cycles (Cq) values in positive tests over time also reveal that Delta infections lead to a higher viral load on average compared to Alpha infections, but this increase is only 2 to 3x on average for our study design. Our results are consistent with the hypothesis that the Delta variant is more transmissible than the Alpha variant, and that this could be due to the Delta variant's ability to establish a higher viral load earlier in the infection compared to the Alpha variant.

Published

2021

10. Emergence and rapid transmission of SARS-CoV-2 B.1.1.7 in the United States

Author

Rob Knight, David T.W. Wong, Peter De Hoff, Phillip G. Febbo, Kelly M. Schiabor Barrett, Jimmy M. Ramirez, Alexandre Bolze, Eric McDonald, Louise C. Laurent, Ezra Kurzban, David M. Becker, Michael Worobey, Emily Spencer, Marc Laurent, Duncan MacCannell, Kimberly Gietzen, Venice Servellita, Aaron Harding, Catelyn Anderson, Phoebe Seaver, Marc A. Suchard, Magnus Isaksson, Shashank Sathe, Brett Austin, Tracy Basler, Candace Wang, Holly Valentine, Simon R. White, Jason Nguyen, Sharoni Jacobs, Charles Y. Chiu, Laura D. Hughes, Mark Zeller, James T. Lu, Karthik Gangavarapu, Refugio Robles-Sikisaka, Kristian G. Andersen, Charlotte Rivera-Garcia, Kelly Hoon, Brad Sickler, Gene W. Yeo, Brendan B. Larsen, Nicole L. Washington, Eileen de Feo, Xueqing Wang, Jingtao Liu, Efren Sandoval, Omid Bakhtar, Jay Antico, Elizabeth T. Cirulli, Geraint Levan, William E. Lee, Tyler Cassens, and Xianding Deng

Subjects

Male, 2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Biology, genomic epidemiology, Medical and Health Sciences, Article, General Biochemistry, Genetics and Molecular Biology, law.invention, Vaccine Related, 03 medical and health sciences, 0302 clinical medicine, law, Models, Biodefense, Genetics, Humans, Genomic Epidemiology, B.1.1.7, 501Y.V1, Lung, 030304 developmental biology, 0303 health sciences, SARS-CoV-2, Genomic sequencing, Prevention, Human Genome, COVID-19, Pneumonia, Biological Sciences, Biological, United States, Good Health and Well Being, Transmission (mechanics), Variant of Concern, Female, variant of concern, 030217 neurology & neurosurgery, Demography, VOC-202012/01, Developmental Biology

Abstract

The highly transmissible B.1.1.7 variant of SARS-CoV-2, first identified in the United Kingdom, has gained a foothold across the world. Using S gene target failure (SGTF) and SARS-CoV-2 genomic sequencing, we investigated the prevalence and dynamics of this variant in the United States (U.S.), tracking it back to its early emergence. We found that while the fraction of B.1.1.7 varied by state, the variant increased at a logistic rate with a roughly weekly doubling rate and an increased transmission of 40-50%. We revealed several independent introductions of B.1.1.7 into the U.S. as early as late November 2020, with community transmission spreading it to most states within months. We show that the U.S. is on a similar trajectory as other countries where B.1.1.7 became dominant, requiring immediate and decisive action to minimize COVID-19 morbidity and mortality., Genomic epidemiology analyses explain the introduction and transmission of the B.1.1.7 variant of SARS-CoV-2 into the United States, with projections for it to soon be the dominant strain in the country.

Published

2021

11. Genomic epidemiology identifies emergence and rapid transmission of SARS-CoV-2 B.1.1.7 in the United States

Author

Omid Bakhtar, Jay Antico, Brendan B. Larsen, Catelyn Anderson, Louise C. Laurent, Brett Austin, Nicole L. Washington, Simon R. White, Kelly M. Schiabor Barrett, Geraint Levan, Kristian G. Andersen, Eileen de Feo, Phoebe Seaver, Magnus Isaksson, Xianding Deng, Sharoni Jacobs, William E. Lee, Ezra Kurzban, Peter De Hoff, Candace Wang, Emily Spencer, Venice Servellita, Phil Febbo, Michael Worobey, Shashank Sathe, Kelly Hoon, Brad Sickler, David T.W. Wong, Jimmy M. Ramirez, Gene W. Yeo, Karthik Gangavarapu, Kimberly Gietzen, Jingtao Liu, Xueqing Wang, Efren Sandoval, Aaron Harding, Holly Valentine, Eric McDonald, Marc A. Suchard, Mark Zeller, Charlotte Rivera-Garcia, Charles Y. Chiu, Elizabeth T. Cirulli, David M. Becker, Marc Laurent, James T. Lu, Refugio Robles-Sikisaka, Jason Nguyen, Tracy Basler, Rob Knight, Alexandre Bolze, Tyler Cassens, and Laura D. Hughes

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Prevention, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Transmission rate, media_common.quotation_subject, Art, Article, Vaccine Related, Kingdom, Good Health and Well Being, Rapid rise, Biodefense, Lung, Humanities, media_common

Abstract

Author(s): Washington, Nicole L; Gangavarapu, Karthik; Zeller, Mark; Bolze, Alexandre; Cirulli, Elizabeth T; Schiabor Barrett, Kelly M; Larsen, Brendan B; Anderson, Catelyn; White, Simon; Cassens, Tyler; Jacobs, Sharoni; Levan, Geraint; Nguyen, Jason; Ramirez, Jimmy M; Rivera-Garcia, Charlotte; Sandoval, Efren; Wang, Xueqing; Wong, David; Spencer, Emily; Robles-Sikisaka, Refugio; Kurzban, Ezra; Hughes, Laura D; Deng, Xianding; Wang, Candace; Servellita, Venice; Valentine, Holly; De Hoff, Peter; Seaver, Phoebe; Sathe, Shashank; Gietzen, Kimberly; Sickler, Brad; Antico, Jay; Hoon, Kelly; Liu, Jingtao; Harding, Aaron; Bakhtar, Omid; Basler, Tracy; Austin, Brett; Isaksson, Magnus; Febbo, Phil; Becker, David; Laurent, Marc; McDonald, Eric; Yeo, Gene W; Knight, Rob; Laurent, Louise C; de Feo, Eileen; Worobey, Michael; Chiu, Charles; Suchard, Marc A; Lu, James T; Lee, William; Andersen, Kristian G | Abstract: As of January of 2021, the highly transmissible B.1.1.7 variant of SARS-CoV-2, which was first identified in the United Kingdom (U.K.), has gained a strong foothold across the world. Because of the sudden and rapid rise of B.1.1.7, we investigated the prevalence and growth dynamics of this variant in the United States (U.S.), tracking it back to its early emergence and onward local transmission. We found that the RT-qPCR testing anomaly of S gene target failure (SGTF), first observed in the U.K., was a reliable proxy for B.1.1.7 detection. We sequenced 212 B.1.1.7 SARS-CoV-2 genomes collected from testing facilities in the U.S. from December 2020 to January 2021. We found that while the fraction of B.1.1.7 among SGTF samples varied by state, detection of the variant increased at a logistic rate similar to those observed elsewhere, with a doubling rate of a little over a week and an increased transmission rate of 35-45%. By performing time-aware Bayesian phylodynamic analyses, we revealed several independent introductions of B.1.1.7 into the U.S. as early as late November 2020, with onward community transmission enabling the variant to spread to at least 30 states as of January 2021. Our study shows that the U.S. is on a similar trajectory as other countries where B.1.1.7 rapidly became the dominant SARS-CoV-2 variant, requiring immediate and decisive action to minimize COVID-19 morbidity and mortality.

Published

2021

12. SARS-CoV-2 Variant Delta Rapidly Displaced Variant Alpha in the United States and Led to Higher Viral Loads

Author

Alexandre Bolze, Shishi Luo, Simon White, Elizabeth T. Cirulli, Dana Wyman, Andrew Dei Rossi, Henrique Machado, Tyler Cassens, Sharoni Jacobs, Kelly M. Schiabor Barrett, Francisco Tanudjaja, Kevin Tsan, Jason Nguyen, Jimmy M. Ramirez, Efren Sandoval, Xueqing Wang, David Wong, David Becker, Marc Laurent, James T. Lu, Magnus Isaksson, Nicole L. Washington, and William Lee

Subjects

History, Polymers and Plastics, SARS-CoV-2, COVID-19, Humans, Viral Load, Business and International Management, General Biochemistry, Genetics and Molecular Biology, United States, Industrial and Manufacturing Engineering

Abstract

We report on the sequencing of 74,348 SARS-CoV-2 positive samples collected across the United States and show that the Delta variant, first detected in the United States in March 2021, made up the majority of SARS-CoV-2 infections by July 1, 2021 and accounted for99.9% of the infections by September 2021. Not only did Delta displace variant Alpha, which was the dominant variant at the time, it also displaced the Gamma, Iota, and Mu variants. Through an analysis of quantification cycle (Cq) values, we demonstrate that Delta infections tend to have a 1.7× higher viral load compared to Alpha infections (a decrease of 0.8 Cq) on average. Our results are consistent with the hypothesis that the increased transmissibility of the Delta variant could be due to the ability of the Delta variant to establish a higher viral load earlier in the infection as compared to the Alpha variant.

Published

2021

13. Saliva is less sensitive than nasopharyngeal swabs for COVID-19 detection in the community setting

Author

N. Leonetti, A. Amin, Yw. Lim, David M. Becker, C. Elliott, James T. Lu, Joseph J. Grzymski, Louise C. Laurent, Efren Sandoval, PL De Hoff, and A. Diets

Subjects

Saliva, medicine.medical_specialty, Test matrix, Coronavirus disease 2019 (COVID-19), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Saliva collection, stomatognathic system, Internal medicine, Cohort, Ambulatory, medicine, Community setting, business

Abstract

The use of saliva collection for SARS-CoV-2 diagnostics in the ambulatory setting provides several advantages when compared to nasopharyngeal swabs (NPS), including ease of self-collection and reduced use of personal protective equipment (PPE). In addition saliva collection could be advantageous in advising if a convalescent patient is able to return to work after a period of self-quarantine. We investigated the utility of saliva collection in the community setting at Renown Health in a prospective Diagnostic Cohort of 88 patients and in a Convalescent Cohort of 24 patients. In the Diagnostic Cohort, we find that saliva collection has reduced sensitivity (~30% less) relative than NPS. And in our convalescent cohort of patients greater than 8 days and less than 21 days from first symptom, we find that saliva has ~ 50% sensitivity relative to NPS. Our results suggest that rigorous studies in the intended populations should be performed before large-scale screening using saliva as the test matrix is initiated.

Published

2020

14. Duox, Flotillin-2, and Src42A are required to activate or delimit the spread of the transcriptional response to epidermal wounds in Drosophila.

Author

Michelle T Juarez, Rachel A Patterson, Efren Sandoval-Guillen, and William McGinnis

Subjects

Genetics, QH426-470

Abstract

The epidermis is the largest organ of the body for most animals, and the first line of defense against invading pathogens. A breach in the epidermal cell layer triggers a variety of localized responses that in favorable circumstances result in the repair of the wound. Many cellular and genetic responses must be limited to epidermal cells that are close to wounds, but how this is regulated is still poorly understood. The order and hierarchy of epidermal wound signaling factors are also still obscure. The Drosophila embryonic epidermis provides an excellent system to study genes that regulate wound healing processes. We have developed a variety of fluorescent reporters that provide a visible readout of wound-dependent transcriptional activation near epidermal wound sites. A large screen for mutants that alter the activity of these wound reporters has identified seven new genes required to activate or delimit wound-induced transcriptional responses to a narrow zone of cells surrounding wound sites. Among the genes required to delimit the spread of wound responses are Drosophila Flotillin-2 and Src42A, both of which are transcriptionally activated around wound sites. Flotillin-2 and constitutively active Src42A are also sufficient, when overexpressed at high levels, to inhibit wound-induced transcription in epidermal cells. One gene required to activate epidermal wound reporters encodes Dual oxidase, an enzyme that produces hydrogen peroxide. We also find that four biochemical treatments (a serine protease, a Src kinase inhibitor, methyl-ß-cyclodextrin, and hydrogen peroxide) are sufficient to globally activate epidermal wound response genes in Drosophila embryos. We explore the epistatic relationships among the factors that induce or delimit the spread of epidermal wound signals. Our results define new genetic functions that interact to instruct only a limited number of cells around puncture wounds to mount a transcriptional response, mediating local repair and regeneration.

Published

2011

15. Deep Sequencing of 10,000 Human Genomes

Author

Julia di Iulio, Suzanne Brewerton, Ewen F. Kirkness, Nadeem Bulsara, Yaron Turpaz, Emily H. M. Wong, Brad A. Perkins, Martin M. Fabani, Amalio Telenti, Efren Sandoval, Levi C. T. Pierce, Gary Metzker, Naisha Shah, Chao Xie, Ahmed A. Moustafa, William H. Biggs, Chad Garner, J. Craig Venter, and Franz Josef Och

Subjects

0301 basic medicine, Genetics, Cancer genome sequencing, Genome evolution, Genome, Multidisciplinary, Hybrid genome assembly, Genomics, Genome project, Computational biology, Biological Sciences, Biology, Deep sequencing, DNA sequencing, 03 medical and health sciences, 030104 developmental biology, Gene density, Genetic variation, Humans, Human genome, Precision Medicine, Demography, Reference genome, Sequence (medicine)

Abstract

We report on the sequencing of 10,545 human genomes at 30-40x coverage with an emphasis on quality metrics and novel variant and sequence discovery. We find that 84% of an individual human genome can be sequenced confidently. This high confidence region includes 91.5% of exon sequence and 95.2% of known pathogenic variant positions. We present thedistribution of over 150 million single nucleotide variants in the coding and non-coding genome. Each newly sequenced genome contributes an average of 8,579 novel variants. In addition, each genome carries in average 0.7 Mb of sequence that is not found in the main build of the hg38 reference genome. The density of this catalog of variation allowed us to construct highresolution profiles that define genomic sites that are highly intolerant of genetic variation. These results indicate that the data generated by deep genome sequencing is of the quality necessary for clinical use.Significance statementDeclining sequencing costs and new large-scale initiatives towards personalized medicine are driving a massive expansion in the number of human genomes being sequenced. Therefore, there is an urgent need to define quality standards for clinical use. This includes deep coverage and sequencing accuracy of an individual’s genome, rather than aggregated coverage of data across a cohort or population. Our work represents the largest effort to date in sequencing human genomes at deep coverage with these new standards. This study identifies over 150 million human variants, a majority of them rare and unknown. Moreover, these data identify sites in the genome that are highly intolerant to variation - possibly essential for life or health. We conclude that high coverage genome sequencing provides accurate detail on human variation for discovery and for clinical applications.

Published

2016

16. Aberrant DNA Methylation in Human iPSCs Associates with MYC-Binding Motifs in a Clone-Specific Manner Independent of Genetics

Author

Kelly A. Frazer, Erin N. Smith, Efren Sandoval, Kenneth E. Diffenderfer, Angelo Arias, W. Travis Berggren, Yuriko Hishida, Veronica Modesto, Athanasia D. Panopoulos, William H. Biggs, Juan Carlos Izpisua Belmonte, Clay Conner, Peter J. Shepard, and Agnieszka D'Antonio-Chronowska

Subjects

0301 basic medicine, Induced Pluripotent Stem Cells, Clone (cell biology), Biology, Article, Proto-Oncogene Proteins c-myc, 03 medical and health sciences, Genetics, Humans, Nucleotide Motifs, Induced pluripotent stem cell, RNA-Directed DNA Methylation, Regulation of gene expression, Sequence Analysis, RNA, Genetic Variation, Twins, Monozygotic, Cell Biology, Methylation, DNA Methylation, Fibroblasts, Clone Cells, 030104 developmental biology, Gene Expression Regulation, CpG site, DNA methylation, Molecular Medicine, CpG Islands, Reprogramming, Genome-Wide Association Study, Transcription Factors

Abstract

Induced pluripotent stem cells (iPSCs) show variable methylation patterns between lines, some of which reflect aberrant differences relative to embryonic stem cells (ESCs). To examine whether this aberrant methylation results from genetic variation or non-genetic mechanisms, we generated human iPSCs from monozygotic twins to investigate how genetic background, clone, and passage number contribute. We found that aberrantly methylated CpGs are enriched in regulatory regions associated with MYC protein motifs and affect gene expression. We classified differentially methylated CpGs as being associated with genetic and/or non-genetic factors (clone and passage), and we found that aberrant methylation preferentially occurs at CpGs associated with clone-specific effects. We further found that clone-specific effects play a strong role in recurrent aberrant methylation at specific CpG sites across different studies. Our results argue that a non-genetic biological mechanism underlies aberrant methylation in iPSCs and that it is likely based on a probabilistic process involving MYC that takes place during or shortly after reprogramming.

Published

2017

17. Large-Scale Profiling Reveals the Influence of Genetic Variation on Gene Expression in Human Induced Pluripotent Stem Cells

Author

Bing Ren, Katrina M. Olson, David Jakubosky, Kelly A. Frazer, Erin N. Smith, Kristen Jepsen, Efren Sandoval, Naoki Nariai, Hui Huang, Angelo Arias, Paola Benaglio, Matteo D’Antonio, He Li, Hiroko Matsui, Christopher DeBoever, Agnieszka D'Antonio-Chronowska, Joaquin Reyna, Emma K. Farley, and William H. Biggs

Subjects

0301 basic medicine, Regulatory Sequences, Nucleic Acid, Medical and Health Sciences, 0302 clinical medicine, stem cell gene expression, 2.1 Biological and endogenous factors, Stem Cell Research - Induced Pluripotent Stem Cell - Non-Human, Aetiology, Induced pluripotent stem cell, Regulation of gene expression, Genetics, Stem Cell Research - Induced Pluripotent Stem Cell - Human, expression quantitative trait loci, Biological Sciences, Cellular Reprogramming, Regulatory sequence, Molecular Medicine, regulation of gene expression, Human, Biotechnology, DNA Copy Number Variations, Quantitative Trait Loci, Induced Pluripotent Stem Cells, Pair-rule gene, Biology, eQTL, Gene dosage, Article, Chromosomes, Genetic Heterogeneity, 03 medical and health sciences, Humans, Stem Cell Research - Embryonic - Human, Gene, Chromosomes, Human, X, Binding Sites, Nucleic Acid, Stem Cell Research - Induced Pluripotent Stem Cell, Gene Expression Profiling, Human Genome, Genetic Variation, Molecular Sequence Annotation, Cell Biology, Stem Cell Research, Gene expression profiling, 030104 developmental biology, Gene Expression Regulation, Expression quantitative trait loci, gene expression, stem cell genetics, Generic health relevance, Regulatory Sequences, 030217 neurology & neurosurgery, Transcription Factors, Developmental Biology

Abstract

In this study, we used whole genome sequencing and gene expression profiling of 215 human induced pluripotent stem cell (iPSC) lines from different donors to identify genetic variants associated with RNA expression for 5,746 genes. We were able to predict causal variants for these expression quantitative trait loci (eQTLs) that disrupt transcription factor binding and validated a subset of them experimentally. We also identified copy number variant (CNV) eQTLs, including some that appear to affect gene expression by altering the copy number of intergenic regulatory regions. In addition, we were able to identify effects on gene expression of rare genic CNVs and regulatory single nucleotide variants, and found that reactivation of gene expression on the X chromosome depends on gene chromosomal position. Our work highlights the value of iPSCs for genetic association analyses and provides a unique resource for investigating the genetic regulation of gene expression in pluripotent cells.

Published

2017

18. Duox, Flotillin-2, and Src42A are required to activate or delimit the spread of the transcriptional response to epidermal wounds in Drosophila

Author

William McGinnis, Efren Sandoval-Guillen, Michelle T. Juarez, and Rachel A. Patterson

Subjects

Cancer Research, lcsh:QH426-470, Proto-Oncogene Proteins pp60(c-src), Beta-Cyclodextrins, Biology, 03 medical and health sciences, 0302 clinical medicine, Model Organisms, Molecular Cell Biology, Genetics, Animals, Drosophila Proteins, Molecular Biology, Transcription factor, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Wound Healing, Epidermis (botany), integumentary system, beta-Cyclodextrins, Membrane Proteins, NADPH Oxidases, Hydrogen Peroxide, Molecular biology, Hedgehog signaling pathway, 3. Good health, lcsh:Genetics, Drosophila melanogaster, Gene Expression Regulation, Mutation, Signal transduction, Epidermis, Wound healing, 030217 neurology & neurosurgery, Drosophila Protein, Signal Transduction, Transcription Factors, Research Article

Abstract

The epidermis is the largest organ of the body for most animals, and the first line of defense against invading pathogens. A breach in the epidermal cell layer triggers a variety of localized responses that in favorable circumstances result in the repair of the wound. Many cellular and genetic responses must be limited to epidermal cells that are close to wounds, but how this is regulated is still poorly understood. The order and hierarchy of epidermal wound signaling factors are also still obscure. The Drosophila embryonic epidermis provides an excellent system to study genes that regulate wound healing processes. We have developed a variety of fluorescent reporters that provide a visible readout of wound-dependent transcriptional activation near epidermal wound sites. A large screen for mutants that alter the activity of these wound reporters has identified seven new genes required to activate or delimit wound-induced transcriptional responses to a narrow zone of cells surrounding wound sites. Among the genes required to delimit the spread of wound responses are Drosophila Flotillin-2 and Src42A, both of which are transcriptionally activated around wound sites. Flotillin-2 and constitutively active Src42A are also sufficient, when overexpressed at high levels, to inhibit wound-induced transcription in epidermal cells. One gene required to activate epidermal wound reporters encodes Dual oxidase, an enzyme that produces hydrogen peroxide. We also find that four biochemical treatments (a serine protease, a Src kinase inhibitor, methyl-ß-cyclodextrin, and hydrogen peroxide) are sufficient to globally activate epidermal wound response genes in Drosophila embryos. We explore the epistatic relationships among the factors that induce or delimit the spread of epidermal wound signals. Our results define new genetic functions that interact to instruct only a limited number of cells around puncture wounds to mount a transcriptional response, mediating local repair and regeneration., Author Summary An epidermal wound provides signals that initiate a variety of localized responses, some of which act to regenerate and repair the breach in the epidermal barrier. The Drosophila melanogaster embryonic epidermis provides an excellent system to discover new genes that regulate wound-healing processes. Using fluorescent epidermal “wound” reporters that are locally activated around wound sites, we have screened almost 5,000 Drosophila mutants for functions required to activate or delimit wound-induced transcriptional responses to a local zone of epidermal cells. Among the seven new genes required to delimit the spread of wound responses are Flotillin-2 and Src42A. These two genes are also sufficient, when overexpressed at high levels, to inhibit wound-induced transcription in epidermal cells. One new gene required to activate epidermal wound reporters encodes Dual oxidase, an enzyme that produces hydrogen peroxide. We also find that four biochemical treatments (a serine protease, a Src kinase inhibitor, methyl-ß-cyclodextrin, and hydrogen peroxide) are sufficient to globally activate epidermal wound response genes in Drosophila embryos. Our results define new genetic functions, and the interactions among them, which regulate the local transcriptional response to puncture wounds.

Published

2011

19. Effects on Epidermal Actin Composition in Wounded Drosophila Grainy head Zygotic Mutants

Author

William McGinnis, Efren Sandoval, and Michelle T. Juarez

Subjects

Zygote, biology, Mutant, Genetics, Drosophila (subgenus), biology.organism_classification, Molecular Biology, Biochemistry, Actin, Biotechnology, Cell biology

Published

2008

20. REDES ALIMENTARIAS ALTERNATIVAS :NUEVOS COMPROMISOS POLÍTICOS Y SOCIALES, UN ESTUDIO COMPARATIVO FRANCO-MEXICANO

Author

DAVID SÉBASTIEN MONACHON and EFREN SANDOVAL HERNANDEZ

Subjects

Tesis - Doctorado en Antropología, CDMX. [Otro], Abastecimiento de alimentos - México - Aspectos sociales. [LDLC], 5 [cti], Ayuda internacional - Aspectos políticos - México. [LDLC], Alimentos genéticamente modificados - México. [LDLC], 630706 [cti], 6307 [cti], 63 [cti], Industria alimentaria. [LDLC]

Abstract

“En la década de los 1950, dado el rápido crecimiento de la población mundial y las importantes crisis alimentarias, se buscó transformar la agricultura con el objetivo de mejorar la productividad y acabar con el hambre en el mundo, o al menos disminuirlo. Los gobiernos y numerosas instituciones de investigación y financiamiento a nivel global, tales como la fundación Rockefeller que aportó gran parte de los fondos para la constitución del Centro Internacional de Mejoramiento de Maíz y Trigo (CIMMYT) en México, trataron de responder a este aumento de la demanda alimentaria. William Gaud, exdirector de la Agencia estadunidense para el Desarrollo Internacional (USAID), denominó “Revolución Verde” a este período que se prolongó hasta los años noventa. Se trataba de la aplicación de un conjunto de técnicas de producción para la agricultura cuyo desarrollo fue posibilitado por tres factores principales: uso de semillas “mejoradas” con variedades de alto rendimiento; aporte de fertilizantes y productos fitosanitarios; y políticas públicas favorables a una economía de mercado (Griffon, 2002: 40). Los resultados y consecuencias de estas experiencias para responder al reto de la soberanía alimentaria mundial son muy controvertidos y llevaron al desarrollo de una agricultura intensiva y estandarizada, en relación con un consumo de masas que impulsó la toma de control de esta actividad ancestral por empresas transnacionales que tienen acceso a importantes capitales y a alta tecnología (Nigh, 1999: 254). Así mismo tomaron el control tanto de la agricultura como de la industria, desde el acceso a tierras productivas, el control de los insumos y semillas, hasta las fases de almacenamiento y comercialización. Este proceso de industrialización de la agricultura fue facilitado y acelerado por los avances de la química orgánica que puso a disposición de esta agricultura a gran escala, agrotóxicos y fertilizantes cada vez más potentes”.

Published

2017

21. 'Permanentemente temporales: un análisis sobre las prácticas de contratación del sistema de visas de trabajo temporal H2 en México'

Author

LIDIA ESTHER MUÑOZ PANIAGUA, EFREN SANDOVAL HERNANDEZ, CAROLINA RIVERA FARFAN, and SHINJI HIRAI

Subjects

5 [cti], 630906 [cti], 63 [cti], 6309 [cti], Trabajadores agrícolas migratorios - Estados Unidos - Condiciones sociales, Trabajadores agrícolas migratorios - México, Trabajo migratorio - Condición jurídica, leyes, etc. - Estados Unidos. [LC]

Abstract

“La presente investigación tiene el propósito de analizar en profundidad las prácticas de contratación del sistema de visas de trabajo temporal H2 en México. Este sistema se describe como un conjunto de prácticas y actores fragmentados, y carece de lineamientos institucionales claramente establecidos para su implementación. La intermediación laboral múltiple favorece el carácter auto regulado de los agentes de reclutamiento y da lugar a una diversidad de prácticas de contratación que van desde procesos apegados a las regulaciones existentes hasta fraudes de grandes magnitudes. Hay incertidumbre y ambigüedad inherentes al reclutamiento lo cual resulta en una proclividad a que los trabajadores sean víctimas de prácticas que vulneran sus derechos “.

Published

2016