Your search keyword '"Jeffrey D Wall"' showing total 156 results

1. A comparison of humans and baboons suggests germline mutation rates do not track cell divisions.

Author

Felix L Wu, Alva I Strand, Laura A Cox, Carole Ober, Jeffrey D Wall, Priya Moorjani, and Molly Przeworski

Subjects

Biology (General), QH301-705.5

Abstract

In humans, most germline mutations are inherited from the father. This observation has been widely interpreted as reflecting the replication errors that accrue during spermatogenesis. If so, the male bias in mutation should be substantially lower in a closely related species with similar rates of spermatogonial stem cell divisions but a shorter mean age of reproduction. To test this hypothesis, we resequenced two 3-4 generation nuclear families (totaling 29 individuals) of olive baboons (Papio anubis), who reproduce at approximately 10 years of age on average, and analyzed the data in parallel with three 3-generation human pedigrees (26 individuals). We estimated a mutation rate per generation in baboons of 0.57×10-8 per base pair, approximately half that of humans. Strikingly, however, the degree of male bias in germline mutations is approximately 4:1, similar to that of humans-indeed, a similar male bias is seen across mammals that reproduce months, years, or decades after birth. These results mirror the finding in humans that the male mutation bias is stable with parental ages and cast further doubt on the assumption that germline mutations track cell divisions. Our mutation rate estimates for baboons raise a further puzzle, suggesting a divergence time between apes and Old World monkeys of 65 million years, too old to be consistent with the fossil record; reconciling them now requires not only a slowdown of the mutation rate per generation in humans but also in baboons.

Published

2020

2. Polygenic risk score portability for common diseases across genetically diverse populations

Author

Sonia Moreno-Grau, Manvi Vernekar, Arturo Lopez-Pineda, Daniel Mas-Montserrat, Míriam Barrabés, Consuelo D. Quinto-Cortés, Babak Moatamed, Ming Ta Michael Lee, Zhenning Yu, Kensuke Numakura, Yuta Matsuda, Jeffrey D. Wall, Alexander G. Ioannidis, Nicholas Katsanis, Tomohiro Takano, and Carlos D. Bustamante

Subjects

Medicine, Genetics, QH426-470

Abstract

Abstract Background Polygenic risk scores (PRS) derived from European individuals have reduced portability across global populations, limiting their clinical implementation at worldwide scale. Here, we investigate the performance of a wide range of PRS models across four ancestry groups (Africans, Europeans, East Asians, and South Asians) for 14 conditions of high-medical interest. Methods To select the best-performing model per trait, we first compared PRS performances for publicly available scores, and constructed new models using different methods (LDpred2, PRS-CSx and SNPnet). We used 285 K European individuals from the UK Biobank (UKBB) for training and 18 K, including diverse ancestries, for testing. We then evaluated PRS portability for the best models in Europeans and compared their accuracies with respect to the best PRS per ancestry. Finally, we validated the selected PRS models using an independent set of 8,417 individuals from Biobank of the Americas-Genomelink (BbofA-GL); and performed a PRS-Phewas. Results We confirmed a decay in PRS performances relative to Europeans when the evaluation was conducted using the best-PRS model for Europeans (51.3% for South Asians, 46.6% for East Asians and 39.4% for Africans). We observed an improvement in the PRS performances when specifically selecting ancestry specific PRS models (phenotype variance increase: 1.62 for Africans, 1.40 for South Asians and 0.96 for East Asians). Additionally, when we selected the optimal model conditional on ancestry for CAD, HDL-C and LDL-C, hypertension, hypothyroidism and T2D, PRS performance for studied populations was more comparable to what was observed in Europeans. Finally, we were able to independently validate tested models for Europeans, and conducted a PRS-Phewas, identifying cross-trait interplay between cardiometabolic conditions, and between immune-mediated components. Conclusion Our work comprehensively evaluated PRS accuracy across a wide range of phenotypes, reducing the uncertainty with respect to which PRS model to choose and in which ancestry group. This evaluation has let us identify specific conditions where implementing risk-prioritization strategies could have practical utility across diverse ancestral groups, contributing to democratizing the implementation of PRS.

Published

2024

3. Inconsistencies in Neanderthal genomic DNA sequences.

Author

Jeffrey D Wall and Sung K Kim

Subjects

Genetics, QH426-470

Abstract

Two recently published papers describe nuclear DNA sequences that were obtained from the same Neanderthal fossil. Our reanalyses of the data from these studies show that they are not consistent with each other and point to serious problems with the data quality in one of the studies, possibly due to modern human DNA contaminants and/or a high rate of sequencing errors.

Published

2007

4. Incomplete lineage sorting is common in extant gibbon genera.

Author

Jeffrey D Wall, Sung K Kim, Francesca Luca, Lucia Carbone, Alan R Mootnick, Pieter J de Jong, and Anna Di Rienzo

Subjects

Medicine, Science

Abstract

We sequenced reduced representation libraries by means of Illumina technology to generate over 1.5 Mb of orthologous sequence from a representative of each of the four extant gibbon genera (Nomascus, Hylobates, Symphalangus, and Hoolock). We used these data to assess the evolutionary relationships between the genera by evaluating the likelihoods of all possible bifurcating trees involving the four taxa. Our analyses provide weak support for a tree with Nomascus and Hylobates as sister taxa and with Hoolock and Symphalangus as sister taxa, though bootstrap resampling suggests that other phylogenetic scenarios are also possible. This uncertainty is due to short internal branch lengths and extensive incomplete lineage sorting across taxa. The true phylogenetic relationships among gibbon genera will likely require a more extensive whole-genome sequence analysis.

Published

2013

5. Function and regulation of AUTS2, a gene implicated in autism and human evolution.

Author

Nir Oksenberg, Laurie Stevison, Jeffrey D Wall, and Nadav Ahituv

Subjects

Genetics, QH426-470

Abstract

Nucleotide changes in the AUTS2 locus, some of which affect only noncoding regions, are associated with autism and other neurological disorders, including attention deficit hyperactivity disorder, epilepsy, dyslexia, motor delay, language delay, visual impairment, microcephaly, and alcohol consumption. In addition, AUTS2 contains the most significantly accelerated genomic region differentiating humans from Neanderthals, which is primarily composed of noncoding variants. However, the function and regulation of this gene remain largely unknown. To characterize auts2 function, we knocked it down in zebrafish, leading to a smaller head size, neuronal reduction, and decreased mobility. To characterize AUTS2 regulatory elements, we tested sequences for enhancer activity in zebrafish and mice. We identified 23 functional zebrafish enhancers, 10 of which were active in the brain. Our mouse enhancer assays characterized three mouse brain enhancers that overlap an ASD-associated deletion and four mouse enhancers that reside in regions implicated in human evolution, two of which are active in the brain. Combined, our results show that AUTS2 is important for neurodevelopment and expose candidate enhancer sequences in which nucleotide variation could lead to neurological disease and human-specific traits.

Published

2013

6. Population genetic structure and origins of Native Hawaiians in the multiethnic cohort study.

Author

Sung K Kim, Christopher R Gignoux, Jeffrey D Wall, Annette Lum-Jones, Hansong Wang, Christopher A Haiman, Gary K Chen, Brian E Henderson, Laurence N Kolonel, Loic Le Marchand, Daniel O Stram, Richa Saxena, and Iona Cheng

Subjects

Medicine, Science

Abstract

The population genetic structure of Native Hawaiians has yet to be comprehensively studied, and the ancestral origins of Polynesians remain in question. In this study, we utilized high-resolution genome-wide SNP data and mitochondrial genomes of 148 and 160 Native Hawaiians, respectively, to characterize their population structure of the nuclear and mitochondrial genomes, ancestral origins, and population expansion. Native Hawaiians, who self-reported full Native Hawaiian heritage, demonstrated 78% Native Hawaiian, 11.5% European, and 7.8% Asian ancestry with 99% belonging to the B4 mitochondrial haplogroup. The estimated proportions of Native Hawaiian ancestry for those who reported mixed ancestry (i.e. 75% and 50% Native Hawaiian heritage) were found to be consistent with their self-reported heritage. A significant proportion of Melanesian ancestry (mean = 32%) was estimated in 100% self-reported Native Hawaiians in an ADMIXTURE analysis of Asian, Melanesian, and Native Hawaiian populations of K = 2, where K denotes the number of ancestral populations. This notable proportion of Melanesian admixture supports the "Slow-Boat" model of migration of ancestral Polynesian populations from East Asia to the Pacific Islands. In addition, approximately 1,300 years ago a single, strong expansion of the Native Hawaiian population was estimated. By providing important insight into the underlying population structure of Native Hawaiians, this study lays the foundation for future genetic association studies of this U.S. minority population.

Published

2012

7. Autosomal resequence data reveal Late Stone Age signals of population expansion in sub-Saharan African foraging and farming populations.

Author

Murray P Cox, David A Morales, August E Woerner, Jesse Sozanski, Jeffrey D Wall, and Michael F Hammer

Subjects

Medicine, Science

Abstract

BACKGROUND:A major unanswered question in the evolution of Homo sapiens is when anatomically modern human populations began to expand: was demographic growth associated with the invention of particular technologies or behavioral innovations by hunter-gatherers in the Late Pleistocene, or with the acquisition of farming in the Neolithic? METHODOLOGY/PRINCIPAL FINDINGS:We investigate the timing of human population expansion by performing a multilocus analysis of > or = 20 unlinked autosomal noncoding regions, each consisting of approximately 6 kilobases, resequenced in approximately 184 individuals from 7 human populations. We test the hypothesis that the autosomal polymorphism data fit a simple two-phase growth model, and when the hypothesis is not rejected, we fit parameters of this model to our data using approximate Bayesian computation. CONCLUSIONS/SIGNIFICANCE:The data from the three surveyed non-African populations (French Basque, Chinese Han, and Melanesians) are inconsistent with the simple growth model, presumably because they reflect more complex demographic histories. In contrast, data from all four sub-Saharan African populations fit the two-phase growth model, and a range of onset times and growth rates is inferred for each population. Interestingly, both hunter-gatherers (San and Biaka) and food-producers (Mandenka and Yorubans) best fit models with population growth beginning in the Late Pleistocene. Moreover, our hunter-gatherer populations show a tendency towards slightly older and stronger growth (approximately 41 thousand years ago, approximately 13-fold) than our food-producing populations (approximately 31 thousand years ago, approximately 7-fold). These dates are concurrent with the appearance of the Late Stone Age in Africa, supporting the hypothesis that population growth played a significant role in the evolution of Late Pleistocene human cultures.

Published

2009

8. Evolutionary breakpoints in the gibbon suggest association between cytosine methylation and karyotype evolution.

Author

Lucia Carbone, R Alan Harris, Gery M Vessere, Alan R Mootnick, Sean Humphray, Jane Rogers, Sung K Kim, Jeffrey D Wall, David Martin, Jerzy Jurka, Aleksandar Milosavljevic, and Pieter J de Jong

Subjects

Genetics, QH426-470

Abstract

Gibbon species have accumulated an unusually high number of chromosomal changes since diverging from the common hominoid ancestor 15-18 million years ago. The cause of this increased rate of chromosomal rearrangements is not known, nor is it known if genome architecture has a role. To address this question, we analyzed sequences spanning 57 breaks of synteny between northern white-cheeked gibbons (Nomascus l. leucogenys) and humans. We find that the breakpoint regions are enriched in segmental duplications and repeats, with Alu elements being the most abundant. Alus located near the gibbon breakpoints (

Published

2009

9. Sex-biased evolutionary forces shape genomic patterns of human diversity.

Author

Michael F Hammer, Fernando L Mendez, Murray P Cox, August E Woerner, and Jeffrey D Wall

Subjects

Genetics, QH426-470

Abstract

Comparisons of levels of variability on the autosomes and X chromosome can be used to test hypotheses about factors influencing patterns of genomic variation. While a tremendous amount of nucleotide sequence data from across the genome is now available for multiple human populations, there has been no systematic effort to examine relative levels of neutral polymorphism on the X chromosome versus autosomes. We analyzed approximately 210 kb of DNA sequencing data representing 40 independent noncoding regions on the autosomes and X chromosome from each of 90 humans from six geographically diverse populations. We correct for differences in mutation rates between males and females by considering the ratio of within-human diversity to human-orangutan divergence. We find that relative levels of genetic variation are higher than expected on the X chromosome in all six human populations. We test a number of alternative hypotheses to explain the excess polymorphism on the X chromosome, including models of background selection, changes in population size, and sex-specific migration in a structured population. While each of these processes may have a small effect on the relative ratio of X-linked to autosomal diversity, our results point to a systematic difference between the sexes in the variance in reproductive success; namely, the widespread effects of polygyny in human populations. We conclude that factors leading to a lower male versus female effective population size must be considered as important demographic variables in efforts to construct models of human demographic history and for understanding the forces shaping patterns of human genomic variability.

Published

2008

10. Possible ancestral structure in human populations.

Author

Vincent Plagnol and Jeffrey D Wall

Subjects

Genetics, QH426-470

Abstract

Determining the evolutionary relationships between fossil hominid groups such as Neanderthals and modern humans has been a question of enduring interest in human evolutionary genetics. Here we present a new method for addressing whether archaic human groups contributed to the modern gene pool (called ancient admixture), using the patterns of variation in contemporary human populations. Our method improves on previous work by explicitly accounting for recent population history before performing the analyses. Using sequence data from the Environmental Genome Project, we find strong evidence for ancient admixture in both a European and a West African population (p approximately 10(-7)), with contributions to the modern gene pool of at least 5%. While Neanderthals form an obvious archaic source population candidate in Europe, there is not yet a clear source population candidate in West Africa.

Published

2006

11. The pattern of polymorphism in Arabidopsis thaliana.

Author

Magnus Nordborg, Tina T Hu, Yoko Ishino, Jinal Jhaveri, Christopher Toomajian, Honggang Zheng, Erica Bakker, Peter Calabrese, Jean Gladstone, Rana Goyal, Mattias Jakobsson, Sung Kim, Yuri Morozov, Badri Padhukasahasram, Vincent Plagnol, Noah A Rosenberg, Chitiksha Shah, Jeffrey D Wall, Jue Wang, Keyan Zhao, Theodore Kalbfleisch, Vincent Schulz, Martin Kreitman, and Joy Bergelson

Subjects

Biology (General), QH301-705.5

Abstract

We resequenced 876 short fragments in a sample of 96 individuals of Arabidopsis thaliana that included stock center accessions as well as a hierarchical sample from natural populations. Although A. thaliana is a selfing weed, the pattern of polymorphism in general agrees with what is expected for a widely distributed, sexually reproducing species. Linkage disequilibrium decays rapidly, within 50 kb. Variation is shared worldwide, although population structure and isolation by distance are evident. The data fail to fit standard neutral models in several ways. There is a genome-wide excess of rare alleles, at least partially due to selection. There is too much variation between genomic regions in the level of polymorphism. The local level of polymorphism is negatively correlated with gene density and positively correlated with segmental duplications. Because the data do not fit theoretical null distributions, attempts to infer natural selection from polymorphism data will require genome-wide surveys of polymorphism in order to identify anomalous regions. Despite this, our data support the utility of A. thaliana as a model for evolutionary functional genomics.

Published

2005

12. Exploring the Readiness of Prominent Small Language Models for the Democratization of Financial Literacy.

Author

Tagore Rao Kosireddy, Jeffrey D. Wall, and Evan Lucas

Published

2024

13. South Asian medical cohorts reveal strong founder effects and high rates of homozygosity

Author

Jeffrey D. Wall, J. Fah Sathirapongsasuti, Ravi Gupta, Asif Rasheed, Radha Venkatesan, Saurabh Belsare, Ramesh Menon, Sameer Phalke, Anuradha Mittal, John Fang, Deepak Tanneeru, Manjari Deshmukh, Akshi Bassi, Jacqueline Robinson, Ruchi Chaudhary, Sakthivel Murugan, Zameer ul-Asar, Imran Saleem, Unzila Ishtiaq, Areej Fatima, Saqib Shafi Sheikh, Shahid Hameed, Mohammad Ishaq, Syed Zahed Rasheed, Fazal-ur-Rehman Memon, Anjum Jalal, Shahid Abbas, Philippe Frossard, Christian Fuchsberger, Lukas Forer, Sebastian Schoenherr, Qixin Bei, Tushar Bhangale, Jennifer Tom, Santosh Gopi Krishna Gadde, Priya B V, Naveen Kumar Naik, Minxian Wang, Pui-Yan Kwok, Amit V. Khera, B. R. Lakshmi, Adam S. Butterworth, Rajiv Chowdhury, John Danesh, Emanuele di Angelantonio, Aliya Naheed, Vinay Goyal, Rukmini M. Kandadai, Hrishikesh Kumar, Rupam Borgohain, Adreesh Mukherjee, Pettarusp M. Wadia, Ravi Yadav, Soaham Desai, Niraj Kumar, Atanu Biswas, Pramod Kumar Pal, Uday B. Muthane, Shymal K. Das, Vedam L. Ramprasad, Prashanth L. Kukkle, Somasekar Seshagiri, Sekar Kathiresan, Arkasubhra Ghosh, V. Mohan, Danish Saleheen, Eric W. Stawiski, and Andrew S. Peterson

Subjects

Science

Abstract

Abstract The benefits of large-scale genetic studies for healthcare of the populations studied are well documented, but these genetic studies have traditionally ignored people from some parts of the world, such as South Asia. Here we describe whole genome sequence (WGS) data from 4806 individuals recruited from the healthcare delivery systems of Pakistan, India and Bangladesh, combined with WGS from 927 individuals from isolated South Asian populations. We characterize population structure in South Asia and describe a genotyping array (SARGAM) and imputation reference panel that are optimized for South Asian genomes. We find evidence for high rates of reproductive isolation, endogamy and consanguinity that vary across the subcontinent and that lead to levels of rare homozygotes that reach 100 times that seen in outbred populations. Founder effects increase the power to associate functional variants with disease processes and make South Asia a uniquely powerful place for population-scale genetic studies.

Published

2023

14. Understanding employees' information security identities: an interpretive narrative approach.

Author

Jeffrey D. Wall and Prashant Palvia

Published

2022

15. Theorizing the Behavioral Effects of Control Complementarity in Security Control Portfolios.

Author

Jeffrey D. Wall, Prashant Palvia, and John D'Arcy

Published

2022

16. Proposing the core contributor withdrawal theory (CCWT) to understand core contributor withdrawal from online peer-production communities.

Author

Ling Jiang, Kristijan Mirkovski, Jeffrey D. Wall, Christian Wagner 0001, and Paul Benjamin Lowry

Published

2018

17. The Organization Man and the Innovator: Theoretical Archetypes to Inform Behavioral Information Security Research.

Author

Jeffrey D. Wall and Rahul Singh

Published

2018

18. Contextualized Meaning Extraction: A Meta-Algorithm for Big Data Text Mining with Pragmatics.

Author

Jeffrey D. Wall and Rahul Singh

Published

2017

19. Perceived argument quality's effect on threat and coping appraisals in fear appeals: An experiment and exploration of realism check heuristics.

Author

Jeffrey D. Wall and Merrill Warkentin

Published

2019

20. A genomic history of Aboriginal Australia.

Author

Anna-Sapfo Malaspinas, Michael C. Westaway, Craig Muller, Vitor C. Sousa, Oscar Lao, Isabel Alves, Anders Bergström, Georgios Athanasiadis, Jade Yu Cheng, Jacob E. Crawford, Tim H. Heupink, Enrico Macholdt, Stephan Peischl, Simon Rasmussen, Stephan Schiffels, Sankar Subramanian, Joanne L. Wright, Anders Albrechtsen, Chiara Barbieri, Isabelle Dupanloup, Anders Eriksson, Ashot Margaryan, Ida Moltke, Irina Pugach, Thorfinn Sand Korneliussen, Ivan P. Levkivskyi, José Víctor Moreno-Mayar, Shengyu Ni, Fernando Racimo, Martin Sikora, Yali Xue, Farhang A. Aghakhanian, Nicolas Brucato, Søren Brunak, Paula F. Campos, Warren Clark, Sturla Ellingvåg, Gudjugudju Fourmile, Pascale Gerbault, Darren Injie, George Koki, Matthew Leavesley, Betty Logan, Aubrey Lynch, Elizabeth A. Matisoo-Smith, Peter J. McAllister, Alexander J. Mentzer, Mait Metspalu, Andrea B. Migliano, Les Murgha, Maude E. Phipps, William Pomat, Doc Reynolds, Francois-Xavier Ricaut, Peter Siba, Mark G. Thomas, Thomas Wales, Colleen Ma'run Wall, Stephen J. Oppenheimer, Chris Tyler-Smith, Richard Durbin, Joe Dortch, Andrea Manica, Mikkel H. Schierup, Robert A. Foley, Marta Mirazón Lahr, Claire Bowern, Jeffrey D. Wall, Thomas Mailund, Mark Stoneking, Rasmus Nielsen, Manjinder S. Sandhu, Laurent Excoffier, David M. Lambert, and Eske Willerslev

Published

2016

21. Learning Computing Topics in Undergraduate Information Systems Courses: Managing Perceived Difficulty.

Author

Jeffrey D. Wall and Janice Knapp

Published

2014

22. Selection against admixture and gene regulatory divergence in a long-term primate field study

Author

Tauras P. Vilgalys, Arielle S. Fogel, Jordan A. Anderson, Raphael S. Mututua, J. Kinyua Warutere, I. Long’ida Siodi, Sang Yoon Kim, Tawni N. Voyles, Jacqueline A. Robinson, Jeffrey D. Wall, Elizabeth A. Archie, Susan C. Alberts, and Jenny Tung

Subjects

Multidisciplinary, Genome, General Science & Technology, Human Genome, Article, Genetic, Genetics, Animals, Hybridization, Genetic, Selection, Genetic, Hybridization, Selection, Biotechnology, Papio

Abstract

Genetic admixture is central to primate evolution. We combined 50 years of field observations of immigration and group demography with genomic data from ~9 generations of hybrid baboons to investigate the consequences of admixture in the wild. Despite no obvious fitness costs to hybrids, we found signatures of selection against admixture similar to those described for archaic hominins. These patterns were concentrated near genes where ancestry is strongly associated with gene expression. Our analyses also show that introgression is partially predictable across the genome. This study demonstrates the value of integrating genomic and field data for revealing how “genomic signatures of selection” (e.g., reduced introgression in low-recombination regions) manifest in nature; moreover, it underscores the importance of other primates as living models for human evolution.

Published

2022

23. The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity

Author

Gaurav S. Kandlikar, Lenore Pipes, Tiara Moore, Jason P. Sexton, Emily E. Curd, Kimberly M. Ballare, Harris A. Lewin, N. Dean Pentcheff, Beth Shapiro, Teia M. Schweizer, Adam Wall, Jordan Moberg Parker, Robert K. Wayne, Sabrina Shirazi, Nathan J. B. Kraft, Emma L. Aronson, Regina Wetzer, Chloe Orland, Amanda C. Freise, Miroslava N. Munguia Ramos, Jeffrey D. Wall, Maura Palacios Mejia, Paul H. Barber, Zachary Gold, Anna Worth, Ana E. Garcia-Vedrenne, Rachel S. Meyer, Meixi Lin, Rasmus Nielsen, Dannise Ruiz Ramos, Eric Beraut, and Wai-Yin Kwan

Subjects

0106 biological sciences, 0301 basic medicine, Environmental change, Ecology (disciplines), Biodiversity, spatial variation, microbiome, 010603 evolutionary biology, 01 natural sciences, lcsh:Agriculture, 03 medical and health sciences, community science, citizen science, Citizen science, Environmental DNA, lcsh:Agriculture (General), species diversity, business.industry, Environmental resource management, lcsh:S, General Engineering, lcsh:S1-972, Natural resource, biodiversity, ecology, natural resources, 030104 developmental biology, Environmental education, Geography, Habitat, environmental education, earth and environmental sciences, soil, business

Abstract

Climate change is leading to habitat shifts that threaten species persistence throughout California's unique ecosystems. Baseline biodiversity data would provide opportunities for habitats to be managed under short-term and long-term environmental change. Aiming to provide biodiversity data, the UC Conservation Genomics Consortium launched the California Environmental DNA (CALeDNA) program to be a citizen and community science biomonitoring initiative that uses environmental DNA (eDNA, DNA shed from organisms such as from fur, feces, spores, pollen or leaves). Now with results from 1,000 samples shared online, California biodiversity patterns are discoverable. Soil, sediment and water collected by researchers, undergraduates and the public reveal a new catalog of thousands of organisms that only slightly overlap with traditional survey bioinventories. The CALeDNA website lets users explore the taxonomic diversity in different ways, and researchers have created tools to help people new to eDNA to analyze community ecology patterns. Although eDNA results are not always precise, the program team is making progress to fit it into California's biodiversity management toolbox, such as for monitoring ecosystem recovery after invasive species removal or wildfire.

Published

2021

24. Understanding employees' information security identities: an interpretive narrative approach

Author

Prashant Palvia and Jeffrey D. Wall

Subjects

05 social sciences, Identity (social science), 02 engineering and technology, Information security, Library and Information Sciences, Computer Science Applications, Compliance (psychology), Narrative inquiry, 020204 information systems, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Narrative, Sociology, Social psychology, 050203 business & management, Information Systems

Abstract

PurposeThe authors seek to understand the formation of control- and security-related identities among organizational employees through and interpretive narrative analysis. The authors also seek to identify how the identities form over time and across contexts. Several identities are identified as well as the changes that may occur in the identities.Design/methodology/approachFew interpretive or critical studies exist in behavioral information security research to represent employee perspectives of power and control. Using qualitative interviews and narrative analysis of the interview transcripts, this paper analyzes the security- and control-related identities and values that employees adopt in organizational settings.FindingsTwo major categories of behavioral security compliance identities were identified: compliant and noncompliant. Specific identities within the compliant category included: faithful follower vs the reasoned follower, and other-preserving versus the self-preserving identities. The noncompliant category included: anti-authority identity, utilitarian identity, trusting identity and unaware identity. Furthermore, three patterns of identity changes were observed.Research limitations/implicationsThe authors’ narrative stories suggest that employee identities are complex and multi-faceted, and that they may be fluid and adaptive to situational factors. Future research should avoid assumptions that all employees are the same or that employee beliefs remain constant over time or in different contexts. Identities are also strongly rooted in individuals' rearing and other life experiences. Thus, security control is far broader than is studied in behavioral studies. The authors find that history matters and should be examined carefully.Practical implicationsThe authors’ study provides insights that managers can use to enhance security initiatives. It is clear that different employees build different control-related identities. Managers must understand that their employees are unique and will not all respond to policies, punishments, and other forms of control in the same way. The narratives also suggest that many organizations lack appropriate programs to enhance employees' awareness of security issues.Originality/valueThe authors’ narrative analysis suggests that employee security identities are complex and multi-faceted, and that they are fluid and adaptive to situational factors. Research should avoid assumptions that all employees are the same or that their beliefs remain constant over time or in different contexts. Identities are also strongly rooted in individuals' rearing and other life experiences. Their history matters and should be examined carefully.

Published

2021

25. Theorizing the Behavioral Effects of Control Complementarity in Security Control Portfolios

Author

Prashant Palvia, John D'Arcy, and Jeffrey D. Wall

Subjects

Typology, Control theory (sociology), Knowledge management, Computer Networks and Communications, business.industry, 05 social sciences, Control (management), 02 engineering and technology, Information security, Affect (psychology), Fear appeal, Security controls, Theoretical Computer Science, 020204 information systems, Complementarity (molecular biology), 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, 050211 marketing, Business, Software, Information Systems

Abstract

Employees are a major cause of information security vulnerabilities and breaches. Organizations implement controls, such as information security policies, fear appeals, and computer monitoring, to manage the security threats that employees pose. Behavioral information security research seeks to understand how these security controls influence employees’ behaviors. In practice, organizations adopt many coexisting security controls in security control portfolios (SCPs). Unfortunately, the complexities of SCPs are not well understood in the information security literature. To assist in studying SCPs, we present a typology and a theoretical model of security control grounded in an extension of control theory. We identify twelve types of security controls that can exist in practice based on three important control dimensions. We develop a number of propositions to explain how the complementarity of security controls in SCPs affect motivation to protect information. Our efforts produce a behaviorally grounded extension of control theory that is well suited for studying individual-level security behavior governed by complex SCPs.

Published

2021

26. Evolution of genes involved in the unusual genitals of the bear macaque, Macaca arctoides

Author

Jeffrey D. Wall, Laurie S. Stevison, Don J. Melnick, Zachary A. Szpiech, Taylor E. Novak, Ben J. Evans, and Nick P. Bailey

Subjects

Macaca arctoides, education.field_of_study, biology, Phylogenetic tree, Ecology, Population, Reproductive isolation, biology.organism_classification, Macaque, Gene flow, Evolutionary biology, biology.animal, Baculum, Hybrid speciation, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Genital divergence contributes to reproductive barriers between species. Emergence of a novel accessory structure, the baculum, has independently evolved and been lost throughout mammalian evolution, purportedly driven by sexual selection. In primates, the longest recorded baculum belongs to Macaca arctoides, the bear macaque. This species has been proposed to be of homoploid hybrid origin via ancient hybridization between representatives from the fascicularis and sinica species groups. To investigate the evolutionary origins of the bear macaque and its unique morphology, we used whole genome sequences to quantify gene flow and phylogenetic relationships in 10 individuals from 5 species, including the bear macaque (n=3), and two species each from the sinica (n=3) and fascicularis (n=4) species groups. The results of these analyses were concordant, and identified 608 genes in the bear macaque that supported both clustering between M. arctoides and the sinica group (topo2) and had shared derived alleles between species from the two groups. Similarly, 361 genes supported both clustering between M. arctoides and the fascicularis group (topo3) and had shared derived alleles between both groups. Further, sliding window analysis of phylogenetic relationships revealed 53% of the genomic regions supported placement of M. arctoides in the sinica species group (topo2), 16% supported placement in the fascicularis species group (topo3), and 11% supported M. arctoides in a grouping distinct from the sinica and fascicularis groups (topo1). Genomic regions with topo1 were intersected with previously identified QTL for mouse baculum morphology, and 47 genes were found, including five of sixteen major candidate loci that govern mouse baculum variation (KIF14, KIAA0586, RHOJ, TGM2, and DACT1). Although baculum morphology in the bear macaque is diverged from its parent taxa, it most closely resembles that of the fascicularis group. Outliers of shared ancestry from the fascicularis species group located within these same QTL regions overlap with the gene BMP4, which is an important component of the hedgehog signaling pathway that controls gonadogenesis. Two additional outlier genes (one shared with each species group) outside of the baculum QTL are known to interact with BMP4, suggesting this pathway may be involved in baculum morphology in primates. These results highlight how the mosaic ancestry of the bear macaque could explain its unique baculum evolution and collectively contribute to reproductive isolation. Introductory ParagraphIn mammals, the baculum has extreme morphological variability, a dynamic evolutionary history characterized by repeated gain and loss, and is often used in species identification. The bear macaque has divergent genital morphology, including the longest baculum among all primates, and is proposed to have evolved via ancient hybrid speciation. Here, population genetic and phylogenomic approaches were used to examine how ancient hybridization in the bear macaque may have shaped this important component of genital morphology. Results demonstrate extensive mosaicism across the genome, which is consistent with ancient genetic contributions from both putative parental taxa. Genetic regions associated with baculum morphology also had mosaic ancestry for several genes, including KIF14 and KIAA0586, major candidate genes for baculum morphology in mice, and BMP4, a developmental gene involved in gonadogenesis. These results have important implications for how hybridization may have shaped the evolution of reproductive isolation in this unusual species with complex speciation.

Published

2022

27. Response to Bakker et al

Author

Jacqueline A. Robinson, Rauri C.K. Bowie, Olga Dudchenko, Erez Lieberman Aiden, Sher L. Hendrickson, Cynthia C. Steiner, Oliver A. Ryder, David P. Mindell, and Jeffrey D. Wall

Subjects

General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Robinson and colleagues respond to the points raised about their paper by Bakker et al.

Published

2022

28. Evolution of genes involved in the unusual genitals of the bear macaque

Author

Laurie S, Stevison, Nick P, Bailey, Zachary A, Szpiech, Taylor E, Novak, Don J, Melnick, Ben J, Evans, and Jeffrey D, Wall

Abstract

Genital divergence is thought to contribute to reproductive barriers by establishing a "lock-and-key" mechanism for reproductive compatibility. One such example

Published

2022

29. To Fear or Not to Fear? A Critical Review and Analysis of Fear Appeals in the Information Security Context.

Author

Jeffrey D. Wall and Mari W. Buche

Published

2017

30. High-altitude adaptation and incipient speciation in geladas

Author

Amy Lu, Christina M. Bergey, Belayneh Abebe, Thore J. Bergman, Jeffrey Rogers, Jay F. Storz, Idrissa S. Chuma, Anthony V. Signore, Anthony D'Ippolito, Fanuel Kebede, Noah Snyder-Mackler, Kenneth L Chiou, Amanda D. Melin, Alemayehu Lemma, Nga Nguyen, Abebaw Azanaw Haile, Andrew S. Burrell, Peter J. Fashing, Marlys L. Houck, Sascha Knauf, Ferehiwot Ayele, Jane E. Phillips-Conroy, Mareike C Janiak, India Schneider-Crease, Clifford J. Jolly, Colleen McCann, Sharmi Sen, Jeffrey D. Wall, and Jacinta C. Beehner

Subjects

education.field_of_study, biology, Gelada, Population, Reproductive isolation, Incipient speciation, biology.organism_classification, Theropithecus, Evolutionary biology, biology.animal, Genetic algorithm, Primate, Adaptation, education

Abstract

Survival at high altitude requires adapting to extreme conditions such as environmental hypoxia. To understand high-altitude adaptations in a primate, we assembled the genome of the gelada (Theropithecus gelada), an endemic Ethiopian monkey, and complemented it with population resequencing, hematological, and morphometric data. Unexpectedly, we identified a novel karyotype that may contribute to reproductive isolation between gelada populations. We also identified genomic elements including protein-coding sequences and gene families that exhibit accelerated changes in geladas and may contribute to high-altitude adaptation. Our findings lend insight into mechanisms of speciation and adaptation while providing promising avenues for functional hypoxia research.

Published

2021

31. Selection against admixture and gene regulatory divergence in a long-term primate field study

Author

L.I. Siodi, So Young Kim, R. S. Mututua, Arielle S. Fogel, Jacqueline Robinson, Jenny Tung, J.K. Warutere, Tauras P. Vilgalys, Elizabeth A. Archie, Jeffrey D. Wall, Susan C. Alberts, Tawni Voyles, and Jordan A Anderson

Subjects

education.field_of_study, Hybrid zone, Evolutionary biology, Lineage (evolution), Population, Introgression, Biology, education, Genome, Gene, Selection (genetic algorithm), Hybrid

Abstract

Admixture has profoundly influenced evolution across the tree of life, including in humans and other primates1,2. However, we have limited insight into the genetic and phenotypic consequences of admixture in primates, especially during its key early stages. Here, we address this gap by combining 50 years of field observations with population and functional genomic data from yellow (Papio cynocephalus) and anubis (P. anubis) baboons in Kenya, in a longitudinally studied population that has experienced both historical and recent admixture3. We use whole-genome sequencing to characterize the extent of the hybrid zone, estimate local ancestry for 442 known individuals, and predict the landscape of introgression across the genome. Despite no major fitness costs to hybrids, we identify signatures of selection against introgression that are strikingly similar to those described for archaic hominins4–6. These signatures are strongest near loci with large ancestry effects on gene expression, supporting the importance of gene regulation in primate evolution and the idea that selection targeted large regulatory effects following archaic hominin admixture7,8. Our results show that genomic data and field observations of hybrids are important and mutually informative. They therefore demonstrate the value of other primates as living models for phenomena that we cannot observe in our own lineage.

Published

2021

32. The GenomeAsia 100K Project enables genetic discoveries across Asia

Author

Manjari Deshmukh, Stephan C. Schuster, Jong Il Kim, Venkatesan Radha, Partha P. Majumder, Herawati Sudoyo, Somasekar Seshagiri, John C. Chambers, Kok-Gan Chan, R. Rand Allingham, Vladimir Kharkov, Arkasubhra Ghosh, Ravi Gupta, Changhoon Kim, Keith C. Cheng, Lukas Forer, Thiramsett Sattibabu, Qixin Bei, Jeremy Stinson, Murray P. Cox, J. Stephen Lansing, Joseph Guillory, Akshi Bassi, Purushothaman Natarajan, Vadim Stepanov, George Koki, Markus S. Schröder, Ramesh Menon, Santosh Gopi Krishna Gadde, Elena S. Gusareva, Nidhan K. Biswas, Analabha Basu, Christian Fuchsberger, Michael A. Hauser, Santiago-Turla, Sandhya Nair, Mahesh Pratapneni, Sivasankar Malaichamy, Sebastian Schoenherr, Jonathan S. Friedlaender, Seik-Soon Khor, Jeong-Sun Seo, Aakrosh Ratan, Vivek Gopalan, Jeffrey D. Wall, Madasamy Parani, Tatiana M. Karafet, Viswanathan Mohan, Rikky W. Purbojati, Steffen Durinck, Anjali Verma, Kushal Suryamohan, Vedam L. Ramprasad, Badrul Munir Md-Zain, Phalkek Sameer, Andrew S. Peterson, Jong-Yeon Shin, Hie Lim Kim, Eric Stawiski, Joyner T. George, Michael F. Hammer, Katsushi Tokunaga, Jiani Li, Khai C. Ang, Sam Santhosh, Jennifer Tom, Syed Qasim Mehdi, Belong Cho, Tushar Bhangale, Asian School of the Environment, Lee Kong Chian School of Medicine (LKCMedicine), and Complexity Institute

Subjects

Asia, Genotype, Population structure, Population, Datasets as Topic, Disease, Article, 03 medical and health sciences, 0302 clinical medicine, Asian People, Genetic variation, Humans, Medicine [Science], education, Alleles, 030304 developmental biology, Genetic association, 0303 health sciences, education.field_of_study, Multidisciplinary, Genome, Human, Geography, Evolutionary biology, Genetic Discoveries, 030217 neurology & neurosurgery, Imputation (genetics), Founder effect, Reference genome, Genome-Wide Association Study

Abstract

The underrepresentation of non-Europeans in human genetic studies so far has limited the diversity of individuals in genomic datasets and led to reduced medical relevance for a large proportion of the world’s population. Population-specific reference genome datasets as well as genome-wide association studies in diverse populations are needed to address this issue. Here we describe the pilot phase of the GenomeAsia 100K Project. This includes a whole-genome sequencing reference dataset from 1,739 individuals of 219 population groups and 64 countries across Asia. We catalogue genetic variation, population structure, disease associations and founder effects. We also explore the use of this dataset in imputation, to facilitate genetic studies in populations across Asia and worldwide., Using whole-genome sequencing data from 1,739 individuals, the GenomeAsia 100K Project catalogues genetic variation, population structure and disease associations to facilitate genetic studies in Asian populations and increase representation in genetics studies worldwide.

Published

2019

33. Genomic Variation and Recent Population Histories of Spotted (Strix occidentalis) and Barred (Strix varia) Owls

Author

Rauri C. K. Bowie, Jeffrey D. Wall, Pui-Yan Kwok, Zachary R. Hanna, Michal Levy-Sakin, John P. Dumbacher, and Naoko T. Fujito

Subjects

0106 biological sciences, AcademicSubjects/SCI01140, Male, Population, Population Dynamics, Endangered species, Zoology, population split, Biology, 010603 evolutionary biology, 01 natural sciences, hybridization and conservation genetics, 03 medical and health sciences, Genetics, Animals, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, Evolutionary Biology, Genome, Chimera, Population size, Human Genome, AcademicSubjects/SCI01130, Genetic Variation, population structure, Feathers, biology.organism_classification, Strigiformes, United States, Population decline, Population bottleneck, Infectious Diseases, Genetics, Population, Phenotype, Plumage, Threatened species, Northern spotted owl, Female, Biochemistry and Cell Biology, Research Article, Developmental Biology

Abstract

Spotted owls (SOs, Strix occidentalis) are a flagship species inhabiting old-growth forests in western North America. In recent decades, their populations have declined due to ongoing reductions in suitable habitat caused by logging, wildfires, and competition with the congeneric barred owl (BO, Strix varia). The northern spotted owl (S. o. caurina) has been listed as “threatened” under the Endangered Species Act since 1990. Here, we use an updated SO genome assembly along with 51 high-coverage whole-genome sequences to examine population structure, hybridization, and recent changes in population size in SO and BO. We found that potential hybrids identified from intermediate plumage morphology were a mixture of pure BO, F1 hybrids, and F1 × BO backcrosses. Also, although SO underwent a population bottleneck around the time of the Pleistocene–Holocene transition, their population sizes rebounded and show no evidence of any historical (i.e., 100–10,000 years ago) population decline. This suggests that the current decrease in SO abundance is due to events in the past century. Finally, we estimate that western and eastern BOs have been genetically separated for thousands of years, instead of the previously assumed recent (i.e.

Published

2021

34. Inferring Human Demographic History from Genetic Data

Author

Jeffrey D. Wall

Subjects

education.field_of_study, Population bottleneck, Geography, Ancient DNA, Demographic history, Evolutionary biology, Population, Population structure, Genetic data, Population growth, education

Abstract

Genetics and archeology are two fields that provide complementary sources of information on our history as a species. We review what has been learned about human population history from recent genetic studies, including studies of geographic structure, population bottlenecks, and recent population growth. We also describe recent studies that highlight the importance of admixture in human history, from the mixing of different continental populations in the Americas over the past several centuries to ancient admixture between humans and Neanderthals tens of thousands of years ago.

Published

2021

35. Organizational Violations of Externally Governed Privacy and Security Rules: Explaining and Predicting Selective Violations under Conditions of Strain and Excess.

Author

Jeffrey D. Wall, Paul Benjamin Lowry, and Jordan B. Barlow

Published

2016

36. Genome-wide diversity in the California condor tracks its prehistoric abundance and decline

Author

Rauri C. K. Bowie, Oliver A. Ryder, Jacqueline Robinson, Erez Lieberman Aiden, Jeffrey D. Wall, Olga Dudchenko, Sher L. Hendrickson, Cynthia C. Steiner, and David P. Mindell

Subjects

0301 basic medicine, Demographic history, Population, Endangered species, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Captive breeding, Inbreeding depression, Animals, education, Ecosystem, Falconiformes, Population Density, education.field_of_study, Genome, Extinct in the wild, Ecology, Endangered Species, Genomics, biology.organism_classification, 030104 developmental biology, Threatened species, Female, General Agricultural and Biological Sciences, Cathartes, 030217 neurology & neurosurgery

Abstract

Due to their small population sizes, threatened and endangered species frequently suffer from a lack of genetic diversity, potentially leading to inbreeding depression and reduced adaptability.1 During the latter half of the twentieth century, North America's largest soaring bird,2 the California condor (Gymnogyps californianus; Critically Endangered3), briefly went extinct in the wild. Though condors once ranged throughout North America, by 1982 only 22 individuals remained. Following decades of captive breeding and release efforts, there are now >300 free-flying wild condors and ∼200 in captivity. The condor's recent near-extinction from lead poisoning, poaching, and loss of habitat is well documented,4 but much about its history remains obscure. To fill this gap and aid future management of the species, we produced a high-quality chromosome-length genome assembly for the California condor and analyzed its genome-wide diversity. For comparison, we also examined the genomes of two close relatives: the Andean condor (Vultur gryphus; Vulnerable3) and the turkey vulture (Cathartes aura; Least Concern3). The genomes of all three species show evidence of historic population declines. Interestingly, the California condor genome retains a high degree of variation, which our analyses reveal is a legacy of its historically high abundance. Correlations between genome-wide diversity and recombination rate further suggest a history of purifying selection against linked deleterious alleles, boding well for future restoration. We show how both long-term evolutionary forces and recent inbreeding have shaped the genome of the California condor, and provide crucial genomic resources to enable future research and conservation.

Published

2020

37. South Asian Patient Population Genetics Reveal Strong Founder Effects and High Rates of Homozygosity – New Resources for Precision Medicine

Author

Saurabh Belsare, Sameer Phalke, Anamitra Barik, Deepak Tanneeru, Naveen Kumar Naik, Pui-Yan Kwok, Ravi Gupta, Christian Fuchsberger, Adam S. Butterworth, Jacqueline Robinson, Sebastian Schoenherr, Arkasubhra Ghosh, Virinder Mohan, Lukas Forer, Amit Khera, Qixin Bei, Jeffrey D. Wall, J. Fah Sathirapongsasuti, Sekar Seshagiri, B. V. Priya, Anuradha Mittal, B. R. Lakshmi, Rajesh Kumar Rai, Jennifer Tom, Ramesh Menon, Sekar Kathiresan, Tushar Bhangale, Abhijit Chowdhury, Asif Rasheed, Santosh Gopi Krishna Gadde, John Fang, Ruchi Chaudhary, Venkatesan Radha, Andrew S. Peterson, Eric Stawiski, Minxian Wang, John Danesh, and Danish Saleheen

Subjects

Genetics, 0303 health sciences, education.field_of_study, Population, Consanguinity, Disease, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, Geography, Endogamy, Genetic variation, education, Genotyping, 030217 neurology & neurosurgery, 030304 developmental biology, Founder effect, SNP array

Abstract

Population-scale genetic studies can identify drug targets and allow disease risk to be predicted with resulting benefit for management of individual health risks and system-wide allocation of health care delivery resources. Although population-scale projects are underway in many parts of the world, genetic variation between population groups means that additional projects are warranted. South Asia has a population whose genetics is the least characterized of any of the world’s major populations. Here we describe GenomeAsia studies that characterize population structure in South Asia and that create tools for economical and accurate genotyping at population-scale. Prior work on population structure characterized isolated population groups, the relevance of which to large-scale studies of disease genetics is unclear. For our studies we used whole genome sequence information from 4,807 individuals recruited in the health care delivery systems of Pakistan, India and Bangladesh to ensure relevance to population-scale studies of disease genetics. We combined this with WGS data from 927 individuals from isolated South Asian population groups, and developed a custom SNP array (called SARGAM) that is optimized for future human genetic studies in South Asia. We find evidence for high rates of reproductive isolation, endogamy and consanguinity that vary across the subcontinent and that lead to levels of homozygosity that approach 100 times that seen in outbred populations. We describe founder effects that increase the power to associate functional variants with disease processes and that make South Asia a uniquely powerful place for population-scale genetic studies.

Published

2020

38. Genetic profiles of 103,106 individuals in the Taiwan Biobank provide insights into the health and history of Han Chinese

Author

Jenn-Hwai Yang, Saurabh Belsare, Yi-Ling Lin, Feng-Jen Hsieh, Ling-Hui Li, Jer-Yuarn Wu, Chen-Zen Lo, Wan-Jia Lin, Jeffrey D. Wall, C. M. Wei, Fu-Tong Liu, Hsiao-Jung Kao, Chien-Hsiun Chen, Te-Chang Lee, Anand Bhaskar, Pui-Yan Kwok, Lung-Pao Chang, Ming-Wei Su, Erh-Chan Yeh, Chen-Yang Shen, and Ming-Fang Tsai

Subjects

0301 basic medicine, Population genetics, Population, QH426-470, Biology, Article, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Genetic variation, medicine, Genetics, 2.1 Biological and endogenous factors, SNP, Aetiology, education, Molecular Biology, Genotyping, Genetics (clinical), Genetic testing, education.field_of_study, medicine.diagnostic_test, Human Genome, Biobank, Good Health and Well Being, 030104 developmental biology, Mutation (genetic algorithm), Mendelian inheritance, symbols, Medicine, Generic health relevance, 030217 neurology & neurosurgery, Biotechnology

Abstract

Personalized medical care focuses on prediction of disease risk and response to medications. To build the risk models, access to both large-scale genomic resources and human genetic studies is required. The Taiwan Biobank (TWB) has generated high-coverage, whole-genome sequencing data from 1492 individuals and genome-wide SNP data from 103,106 individuals of Han Chinese ancestry using custom SNP arrays. Principal components analysis of the genotyping data showed that the full range of Han Chinese genetic variation was found in the cohort. The arrays also include thousands of known functional variants, allowing for simultaneous ascertainment of Mendelian disease-causing mutations and variants that affect drug metabolism. We found that 21.2% of the population are mutation carriers of autosomal recessive diseases, 3.1% have mutations in cancer-predisposing genes, and 87.3% carry variants that affect drug response. We highlight how TWB data provide insight into both population history and disease burden, while showing how widespread genetic testing can be used to improve clinical care.

Published

2020

39. A comparison of humans and baboons suggests germline mutation rates do not track cell divisions

Author

Alva I. Strand, Carole Ober, Jeffrey D. Wall, Molly Przeworski, Felix L. Wu, Priya Moorjani, and Barton, Nick H

Subjects

0301 basic medicine, Male, Mutation rate, Heredity, Physiology, Single Nucleotide Polymorphisms, Pedigree chart, Monkeys, Medical and Health Sciences, Endocrinology, 0302 clinical medicine, Short Reports, Baboons, Mutation Rate, Models, Medicine and Health Sciences, Cell Cycle and Cell Division, Biology (General), media_common, Mammals, 0303 health sciences, General Neuroscience, Reproduction, Age Factors, Eukaryota, High-Throughput Nucleotide Sequencing, Hominidae, Genomics, Biological Sciences, Spermatozoa, Biological Evolution, Pedigree, Genetic Mapping, Cell Processes, Vertebrates, Mutation (genetic algorithm), Female, General Agricultural and Biological Sciences, Cell Division, Primates, Substitution Mutation, Old World, QH301-705.5, media_common.quotation_subject, Papio anubis, Biology, Human Genomics, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Germline mutation, Sex Factors, Species Specificity, Genetic, Old World monkeys, Genetics, Animals, Humans, Spermatogenesis, Nuclear family, Germ-Line Mutation, 030304 developmental biology, Models, Genetic, Biology and life sciences, Endocrine Physiology, General Immunology and Microbiology, Agricultural and Veterinary Sciences, Point mutation, Contraception/Reproduction, Puberty, Haplotype, Organisms, Cell Biology, 030104 developmental biology, Haplotypes, Evolutionary biology, Amniotes, Mutation, Zoology, 030217 neurology & neurosurgery, Papio, Developmental Biology

Abstract

In humans, most germline mutations are inherited from the father. This observation has been widely interpreted as reflecting the replication errors that accrue during spermatogenesis. If so, the male bias in mutation should be substantially lower in a closely related species with similar rates of spermatogonial stem cell divisions but a shorter mean age of reproduction. To test this hypothesis, we resequenced two 3–4 generation nuclear families (totaling 29 individuals) of olive baboons (Papio anubis), who reproduce at approximately 10 years of age on average, and analyzed the data in parallel with three 3-generation human pedigrees (26 individuals). We estimated a mutation rate per generation in baboons of 0.57×10−8 per base pair, approximately half that of humans. Strikingly, however, the degree of male bias in germline mutations is approximately 4:1, similar to that of humans—indeed, a similar male bias is seen across mammals that reproduce months, years, or decades after birth. These results mirror the finding in humans that the male mutation bias is stable with parental ages and cast further doubt on the assumption that germline mutations track cell divisions. Our mutation rate estimates for baboons raise a further puzzle, suggesting a divergence time between apes and Old World monkeys of 65 million years, too old to be consistent with the fossil record; reconciling them now requires not only a slowdown of the mutation rate per generation in humans but also in baboons., Comparison of sex-specific de novo mutation rates in baboons and humans suggests that germline mutations do not track the number of cell divisions, and reveals a simultaneous slowdown in yearly mutation rates in both the baboon and human lineages.

Published

2020

40. Genomic variation and population histories of spotted (Strix occidentalis) and barred (S. varia) owls

Author

Pui-Yan Kwok, Zachary R. Hanna, Jeffrey D. Wall, John P. Dumbacher, Naoko T. Fujito, Michal Levy-Sakin, and Rauri C. K. Bowie

Subjects

education.field_of_study, Population bottleneck, Genetic variation, Population, Threatened species, Northern spotted owl, Endangered species, Zoology, Subspecies, Biology, Keystone species, education, biology.organism_classification

Abstract

Spotted owls (SO,Strix occidentalis) are a keystone species inhabiting old-growth forests in Western North America. In recent decades, their populations have declined due to ongoing reductions in suitable habitat caused by logging, wildfires, and competition with the congeneric barred owl (BO,Strix varia). The northern spotted owl (subspeciesS. o. caurina) has been listed as “threatened” under the Endangered Species Act since 1990. Here we present a comprehensive look at genetic variation to elucidate the population histories of SO and invading western BO. Specifically, we present an improved SO genome assembly, based on 10x and Bionano Genomics data, along with 51 high-coverage whole-genome sequences including 11 SO from two subspecies (caurinaandoccidentalis), 25 BO, 2 confirmed and 13 potential hybrids. We identified potential hybrids based on intermediate morphology and found them to be a mixture of pure BO, F1 hybrids, and F1 x BO backcrosses. Unlike previous studies reporting asymmetries in the species-specific genders of the parents of F1 hybrids, we did not observe any significant asymmetry. Within species, we found that Western BO genetic variation is not simply a subset of the genetic variation in Eastern BO, suggesting that the two groups have been genetically isolated for longer (thousands of years) than previously suspected (80-130 years). Similarly, we found evidence of substantial genetic differentiation between the two SO subspecies. Finally, our analyses suggest that Northern SO experienced a moderate population bottleneck around the end of the last glaciation, while BO population sizes have always been large.

Published

2020

41. Accurate assembly of the olive baboon (Papio anubis) genome using long-read and Hi-C data

Author

Tauras P. Vilgalys, Jeffrey D. Wall, Joseph Guillory, Laura A. Cox, Pui-Yan Kwok, Jacqueline Robinson, Yun S. Song, Sanjit S. Batra, Somasekar Seshagiri, Steffen Durinck, and Michal Levy-Sakin

Subjects

Linkage disequilibrium, AcademicSubjects/SCI02254, Sequence assembly, Health Informatics, Genomics, Biology, Papio anubis, Data Note, Genome, Chromosomes, 03 medical and health sciences, 0302 clinical medicine, biology.animal, Animals, 030304 developmental biology, 0303 health sciences, Contig, Biological Evolution, Computer Science Applications, Evolutionary biology, AcademicSubjects/SCI00960, 030217 neurology & neurosurgery, Reference genome, Baboon

Abstract

Background Baboons are a widely used nonhuman primate model for biomedical, evolutionary, and basic genetics research. Despite this importance, the genomic resources for baboons are limited. In particular, the current baboon reference genome Panu_3.0 is a highly fragmented, reference-guided (i.e., not fully de novo) assembly, and its poor quality inhibits our ability to conduct downstream genomic analyses. Findings Here we present a de novo genome assembly of the olive baboon (Papio anubis) that uses data from several recently developed single-molecule technologies. Our assembly, Panubis1.0, has an N50 contig size of ∼1.46 Mb (as opposed to 139 kb for Panu_3.0) and has single scaffolds that span each of the 20 autosomes and the X chromosome. Conclusions We highlight multiple lines of evidence (including Bionano Genomics data, pedigree linkage information, and linkage disequilibrium data) suggesting that there are several large assembly errors in Panu_3.0, which have been corrected in Panubis1.0.

Published

2020

42. Proposing the core contributor withdrawal theory (CCWT) to understand core contributor withdrawal from online peer-production communities

Author

Christian Wagner, Kristijan Mirkovski, Jeffrey D. Wall, Paul Benjamin Lowry, and Ling Jiang

Subjects

Typology, Economics and Econometrics, Sociology and Political Science, Communication, 05 social sciences, Context (language use), Cognition, Sensemaking, Burnout, Peer production, Unexpected events, Process theory, 0502 economics and business, 050211 marketing, Psychology, Social psychology, 050203 business & management

Abstract

Purpose Drawing on sensemaking and emotion regulation research, the purpose of this paper is to reconceptualize core contributor withdrawal (CCW) in the context of online peer-production communities (OPPCs). To explain the underlying mechanisms that make core contributors withdraw from these communities, the authors propose a process theory of contributor withdrawal called the core contributor withdrawal theory (CCWT). Design/methodology/approach To support CCWT, a typology of unmet expectations of online communities is presented, which uncovers the cognitive and emotional processing involved. To illustrate the efficacy of CCWT, a case study of the English version of Wikipedia is provided as a representative OPPC. Findings CCWT identifies sensemaking and emotion regulation concerning contributors’ unmet expectations as causes of CCW from OPPCs, which first lead to declined expectations, burnout and psychological withdrawal and thereby to behavioral withdrawal. Research limitations/implications CCWT clearly identifies how and why important participation transitions, such as from core contributor to less active contributor or non-contributor, take place. By adopting process theories, CCWT provides a nuanced explanation of the cognitive and affective events that take place before core contributors withdraw from OPPCs. Practical implications CCWT highlights the challenge of online communities shifting from recruiting new contributors to preventing loss of existing contributors in the maturity stage. Additionally, by identifying the underlying cognitive and affective processes that core contributors experience in response to unexpected events, communities can develop safeguards to prevent or correct cognitions and emotions that lead to withdrawal. Originality/value CCWT provides a theoretical framework that accounts for the negative cognitions and affects that lead to core contributors’ withdrawal from online communities. It furthers the understanding of what motivates contributing to and what leads to withdrawal from OPPC.

Published

2018

43. The Organization Man and the Innovator

Author

Rahul Singh and Jeffrey D. Wall

Subjects

Computer Networks and Communications, media_common.quotation_subject, 05 social sciences, Control (management), 02 engineering and technology, Information security, Persona, Security policy, Management Information Systems, 020204 information systems, Perception, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Bureaucracy, Situational ethics, Psychology, Social psychology, Archetype, 050203 business & management, media_common

Abstract

Behavioral information security research exhibits a preoccupation with security policy, bureaucratic control, and policy compliance and noncompliance. This preoccupation implicitly treats employees as the sociological archetype described by Whyte (1956), the Organization Man. In doing so, the literature has dedicated less time to the study of other archetypes. In this paper, we compare the Organization Man to the Innovator, an amalgam of the Bricoleur and Engineer archetypes identified by Levi-Strauss (1966). We posit that the Innovator archetype may be more prevalent during times of organizational strain and excess. We develop a theoretical framework to explain how situational factors, namely organizational strain and excess, affect individuals' risk perceptions and their willingness to adopt different archetypal personae (i.e., dispositional factors). The framework further suggests that each archetypal persona will behave differently to common security situations. Finally, the framework suggests that the organization's perceptions of employee behavior will provide a feedback loop that further affects the adoption of different archetypes.

Published

2018

44. Critical Discourse Analysis as a Review Methodology: An Empirical Example.

Author

Jeffrey D. Wall, Bernd Carsten Stahl, and Al Farooq Salam

Published

2015

45. Assessing the performance of the haplotype block model of linkage disequilibrium

Author

Jeffrey D. Wall and Pritchard Jonathan K.

Subjects

Heredity -- Research, Heredity -- Genetic aspects, Haplotypes -- Genetic aspects, Genetic markers -- Physiological aspects, Genetic research -- Analysis, Genetic research -- Methods, Genetic disorders -- Health aspects, Genomes -- Physiological aspects, Human genetics -- Research, Biological sciences

Published

2003

46. Disentangling Immediate Adaptive Introgression from Selection on Standing Introgressed Variation in Humans

Author

Mark G. Thomas, Evelyn Jagoda, David M. Lambert, Pascale Gerbault, Eske Willerslev, Jeffrey D. Wall, Terence D. Capellini, Luca Pagani, Matthew Leavesley, Andrea Bamberg Migliano, Marta Mirazón Lahr, Michael C. Westaway, Craig Muller, Daniel Lawson, Mait Metspalu, Willerslev, Eske [0000-0002-7081-6748], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Neanderthal, Population, Introgression, 03 medical and health sciences, 0302 clinical medicine, positive selection, biology.animal, Journal Article, Genetics, adaptive introgression, education, Molecular Biology, Discoveries, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Evolutionary Biology, education.field_of_study, biology, Haplotype, interferon, 030104 developmental biology, Variation (linguistics), Evolutionary biology, archaic genomes, toll-like receptor, Human genome, Generic health relevance, Biochemistry and Cell Biology, Selective sweep, 030217 neurology & neurosurgery

Abstract

Recent studies have reported evidence suggesting that portions of contemporary human genomes introgressed from archaic hominin populations went to high frequencies due to positive selection. However, no study to date has specifically addressed the post-introgression population dynamics of these putative cases of adaptive introgression. Here, for the first time, we specifically define cases of immediate adaptive introgression (iAI), in which archaic haplotypes rose to high frequencies in humans as a result of a selective sweep that occurred shortly after the introgression event. We define these cases as distinct from instances of selection on standing introgressed variation (SI), in which an introgressed haplotype initially segregated neutrally and subsequently underwent positive selection. Using a geographically diverse dataset, we report novel cases of selection on introgressed variation in living humans and shortlisted among these cases those whose selective sweeps are more consistent with having been the product of iAI rather than SI. Many of these novel inferred iAI haplotypes have potential biological relevance, including three introgressed haplotypes that contain immune-related genes in West Siberians, South Asians, and West Eurasians. Overall, our results suggest that iAI may not represent the full picture of positive selection on archaically introgressed haplotypes in humans and that more work needs to be done to analyze the role of SI in the archaic introgression landscape of living humans.

Published

2017

47. Northern Spotted Owl (Strix occidentalis caurina) Genome: Divergence with the Barred Owl (Strix varia) and Characterization of Light-Associated Genes

Author

Rauri C. K. Bowie, John P. Dumbacher, James B. Henderson, Joseph L. DeRisi, Jeffrey D. Wall, Charles Runckel, David P. Mindell, Christopher A. Emerling, Zachary R. Hanna, and Jérôme Fuchs

Subjects

0301 basic medicine, bird, Nuclear gene, Light, Zoology, Sequence assembly, Biology, Genome, Fixation index, Birds, nuclear genome, 03 medical and health sciences, Genetics, Animals, Gene, Vision, Ocular, Ecology, Evolution, Behavior and Systematics, Barn-owl, Tyto, Molecular Sequence Annotation, Strigiformes, biology.organism_classification, 030104 developmental biology, Genome, Mitochondrial, Northern spotted owl, Aves, Strigidae, psychological phenomena and processes, Research Article

Abstract

We report here the assembly of a northern spotted owl (Strix occidentalis caurina) genome. We generated Illumina paired-end sequence data at 90× coverage using nine libraries with insert lengths ranging from ∼250 to 9,600 nt and read lengths from 100 to 375 nt. The genome assembly is comprised of 8,108 scaffolds totaling 1.26 × 109 nt in length with an N50 length of 3.98 × 106 nt. We calculated the genome-wide fixation index (FST) of S. o. caurina with the closely related barred owl (Strix varia) as 0.819. We examined 19 genes that encode proteins with light-dependent functions in our genome assembly as well as in that of the barn owl (Tyto alba). We present genomic evidence for loss of three of these in S. o. caurina and four in T. alba. We suggest that most light-associated gene functions have been maintained in owls and their loss has not proceeded to the same extent as in other dim-light-adapted vertebrates.

Published

2017

48. Contextualized Meaning Extraction

Author

Rahul Singh and Jeffrey D. Wall

Subjects

business.industry, Computer science, Big data, 02 engineering and technology, Pragmatics, computer.software_genre, Text mining, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, Meaning (existential), business, computer, Natural language processing

Abstract

Text mining is a powerful form of business intelligence that is used increasingly to inform organizational decisions. Current text mining algorithms rely heavily on the lexical, syntactic, structural, and semantic features of text to extract meaning and insight for decision making. Although semantic analysis is a useful approach to meaning extraction, pragmatics suggests that a more accurate meaning of text can be extracted by examining the context in which the text is recorded. Given that massive amounts of textual data can be drawn from multiple and diverse sources, accounting for context is increasingly important. A conceptual model is provided to explain how concepts from pragmatics can improve existing text mining algorithms to provide more accurate information for decision making. Reversing the pragmatic process of meaning expression could lead to improved text mining algorithms. The theoretical process model developed herein can provide insight into the development and refinement of text mining algorithms that draw from diverse sources.

Published

2017

49. To fear or not to fear? A critical review and analysis of fear appeals in the information security context

Author

Mari W. Buche and Jeffrey D. Wall

Subjects

020204 information systems, 0502 economics and business, 05 social sciences, 0202 electrical engineering, electronic engineering, information engineering, Context (language use), 02 engineering and technology, Information security, Psychology, Fear appeal, Social psychology, 050203 business & management, Appeal to fear, Information Systems

Published

2017

50. Identification of African-Specific Admixture between Modern and Archaic Humans

Author

Jeffrey D. Wall, Aakrosh Ratan, Eric Stawiski, Hie Lim Kim, Changhoon Kim, Ravi Gupta, Kushal Suryamohan, Elena S. Gusareva, Rikky Wenang Purbojati, Tushar Bhangale, Vadim Stepanov, Vladimir Kharkov, Markus S. Schrӧder, Vedam Ramprasad, Jennifer Tom, Steffen Durinck, Qixin Bei, Jiani Li, Joseph Guillory, Samir Phalke, Analabha Basu, Jeremy Stinson, Sandhya Nair, Sivasankar Malaichamy, Nidhan K. Biswas, John C. Chambers, Keith C. Cheng, Joyner T. George, Seik Soon Khor, Jong-Il Kim, Belong Cho, Ramesh Menon, Thiramsetti Sattibabu, Akshi Bassi, Manjari Deshmukh, Anjali Verma, Vivek Gopalan, Jong-Yeon Shin, Mahesh Pratapneni, Sam Santhosh, Katsushi Tokunaga, Badrul M. Md-Zain, Kok Gan Chan, Madasamy Parani, Purushothaman Natarajan, Michael Hauser, R. Rand Allingham, Cecilia Santiago-Turla, Arkasubhra Ghosh, Santosh Gopi Krishna Gadde, Christian Fuchsberger, Lukas Forer, Sebastian Shoenherr, Herawati Sudoyo, J. Stephen Lansing, Jonathan Friedlaender, George Koki, Murray P. Cox, Michael Hammer, Tatiana Karafet, Khai C. Ang, Syed Q. Mehdi, Venkatesan Radha, Viswanathan Mohan, Partha P. Majumder, Sekar Seshagiri, Jeong-Sun Seo, Stephan Schuster, and Andrew S. Peterson

Subjects

Neanderthal, Black People, Archaic humans, Genome, Article, 03 medical and health sciences, 0302 clinical medicine, biology.animal, Genetics, Animals, Humans, Denisovan, Genetics (clinical), 030304 developmental biology, Neanderthals, 0303 health sciences, biology, Fossils, Genome, Human, Hominidae, Gene Pool, biology.organism_classification, Homo floresiensis, Geography, Genetics, Population, Evolutionary biology, Identification (biology), Gene pool, 030217 neurology & neurosurgery, Reference genome

Abstract

Recent work has demonstrated that two archaic human groups (Neanderthals and Denisovans) interbred with modern humans and contributed to the contemporary human gene pool. These findings relied on the availability of high-coverage genomes from both Neanderthals and Denisovans. Here we search for evidence of archaic admixture from a worldwide panel of 1,667 individuals using an approach that does not require the presence of an archaic human reference genome. We find no evidence for archaic admixture in the Andaman Islands, as previously claimed, or on the island of Flores, where Homo floresiensis fossils have been found. However, we do find evidence for at least one archaic admixture event in sub-Saharan Africa, with the strongest signal in Khoesan and Pygmy individuals from Southern and Central Africa. The locations of these putative archaic admixture tracts are weighted against functional regions of the genome, consistent with the long-term effects of purifying selection against introgressed genetic material.

Published

2019