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1. MYBPC3 Haplotype Linked to Hypertrophic Cardiomyopathy in Rhesus Macaques (Macaca mulatta).

Author

Oldt, Robert F, Bussey, Kimberly J, Settles, Matthew L, Fass, Joseph N, Roberts, Jeffrey A, Reader, J Rachel, Komandoor, Srivathsan, Abrich, Victor A, and Kanthaswamy, Sreetharan

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Cardiovascular, Human Genome, Heart Disease, Biotechnology, Prevention, 2.1 Biological and endogenous factors, Aetiology, Animals, Cardiomyopathy, Hypertrophic, Carrier Proteins, Cats, Haplotypes, Humans, Macaca mulatta, Mutation, Agricultural and Veterinary Sciences, Medical and Health Sciences, Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences
Abstract

In humans, abnormal thickening of the left ventricle of the heart clinically defines hypertrophic cardiomyopathy (HCM), a common inherited cardiovascular disorder that can precede a sudden cardiac death event. The wide range of clinical presentations in HCM obscures genetic variants that may influence an individual's susceptibility to sudden cardiac death. Although exon sequencing of major sarcomere genes can be used to detect high-impact causal mutations, this strategy is successful in only half of patient cases. The incidence of left ventricular hypertrophy (LVH) in a managed research colony of rhesus macaques provides an excellent comparative model in which to explore the genomic etiology of severe HCM and sudden cardiac death. Because no rhesus HCM-associated mutations have been reported, we used a next-generation genotyping assay that targets 7 sarcomeric rhesus genes within 63 genomic sites that are orthologous to human genomic regions known to harbor HCM disease variants. Amplicon sequencing was performed on 52 macaques with confirmed LVH and 42 unrelated, unaffected animals representing both the Indian and Chinese rhesus macaque subspecies. Bias-reduced logistic regression uncovered a risk haplotype in the rhesus MYBPC3 gene, which is frequently disrupted in both human and feline HCM; this haplotype implicates an intronic variant strongly associated with disease in either homozygous or carrier form. Our results highlight that leveraging evolutionary genomic data provides a unique, practical strategy for minimizing population bias in complex disease studies.

Published
2020

3. Genetic Characterization of a Captive Colony of Pigtailed Macaques (Macaca nemestrina).

Author

Zhang, Xinjun, Kanthaswamy, Sree, Trask, Jessica S, Ng, Jillian, Oldt, Robert F, Mankowski, Joseph L, Adams, Robert J, and Smith, David G

Subjects
HIV/AIDS, Genetics, Animal Population Groups, Animals, Animals, Laboratory, Female, Genetic Variation, Macaca nemestrina, Male, Polymorphism, Single Nucleotide, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Veterinary Sciences
Abstract

Effective colony management is critical to guarantee the availability of captive NHP as subjects for biomedical research. Pigtailed macaques (Macaca nemestrina) are an important model for the study of human and nonhuman primate diseases and behavior. Johns Hopkins University hosts one of the largest captive colonies of pigtailed macaques in the United States. In this study, we used 56 single-nucleotide polymorphisms (SNP) to characterize this population of pigtailed macaques, understand their population structure, and assess the effectiveness of their colony management. The results demonstrate that the colony has maintained a high level of genetic diversity, with no loss of heterozygosity since its origin, and low levels of inbreeding and genetic subdivision.

Published
2017

8. The Population Structure of Macaca fascicularis aurea, and their Genetic Relationships with M. f. fascicularis and M. mulatta Determined by 868 RADseq-Derived Autosomal SNPs – A Consideration for Biomedical Research

Author

Phadphon, Poompat, Kanthaswamy, Sree, Oldt, Robert F., Hamada, Yuzuru, and Malaivijitnond, Suchinda

Subjects
Macaca fascicularis, Biomedical Research, Animals, Hybridization, Genetic, Macaca mulatta, Polymorphism, Single Nucleotide, Article
Abstract

BACKGROUND: This study examined the population structure of Macaca fascicularis aurea and their genetic relationships with M. f. fascicularis and M. mulatta. METHODS: The study analyzed 868 RADseq-derived SNPs from samples representing the entire distribution range of M. f. aurea, including their inter- and intraspecific hybrid zones. RESULTS: The study supports a M. mulatta/Indochinese M. f. fascicularis, Sundaic M. f. fascicularis, and M. f. aurea trichotomy; M. f. aurea was genetically distinct from both forms of M. f. fascicularis and M. mulatta. Hybridization between M. f. aurea and M. f. fascicularis occurred in two directions: south-north (8°25’ to 15°56’) and west-east (98°28’ to 99°02’). Low levels of M. mulatta introgression were also detected in M. f. aurea. CONCLUSION: This study showcases a complicated scenario of genetic relationships between the M. fascicularis subspecies and between M. fascicularis and M. mulatta and underscores the importance of these taxa’s population structure and genetic relationships for biomedical research.

Published
2021

9. An inter-laboratory study of DNA-based identity, parentage and species testing in animal forensic genetics.

Author

Kanthaswamy, Sreetharan, Brendel, Torsten, Cancela, Luis, Andrade de Oliveira, Denise A., Brenig, Bertram, Cons, Carmen, Crespi, Julian A., Dajbychová, Markéta, Feldl, Andreas, Itoh, Tomohito, Landi, Vincenzo, Martinez, Amparo, Natonek-Wisniewska, Malgorzata, Oldt, Robert F., Radko, Anna, Ramírez, Oscar, Rodellar, Clementina, Ruiz-Girón, Manuel, Schikorski, David, and Turba, María Elena

Subjects
FORENSIC genetics, ANIMAL genetics, ANIMAL species, MICROSATELLITE repeats, DNA, ANIMAL experimentation, IDENTIFICATION of the dead
Abstract

The probative value of animal forensic genetic evidence relies on laboratory accuracy and reliability. Inter-laboratory comparisons allow laboratories to evaluate their performance on specific tests and analyses and to continue to monitor their output. The International Society for Animal Genetics (ISAG) administered animal forensic comparison tests (AFCTs) in 2016 and 2018 to assess the limitations and capabilities of laboratories offering forensic identification, parentage and species determination services. The AFCTs revealed that analyses of low DNA template concentrations (≤300 pg/µL) constitute a significant challenge that has prevented many laboratories from reporting correct identification and parentage results. Moreover, a lack of familiarity with species testing protocols, interpretation guidelines and representative databases prevented over a quarter of the participating laboratories from submitting correct species determination results. Several laboratories showed improvement in their genotyping accuracy over time. However, the use of forensically validated standards, such as a standard forensic short tandem repeat (STR) kit, preferably with an allelic ladder, and stricter guidelines for STR typing, may have prevented some common issues from occurring, such as genotyping inaccuracies, missing data, elevated stutter products and loading errors. The AFCTs underscore the importance of conducting routine forensic comparison tests to allow laboratories to compare results from each other. Laboratories should keep improving their scientific and technical capabilities and continuously evaluate their personnel's proficiency in critical techniques such as low copy number (LCN) analysis and species testing. Although this is the first time that the ISAG has conducted comparison tests for forensic testing, findings from these AFCTs may serve as the foundation for continuous improvements of the overall quality of animal forensic genetic testing. Comparison tests allow laboratories to evaluate their analyses for accuracy and reliability. Two forensic identification, parentage and species determination comparison tests were performed. The study showed that the LCN DNA analysis represented a significant challenge to most laboratories. Lacking familiarity with species tests curbed most laboratories from reporting accurately. A reliance on forensically validated testing standards may have prevented some of the common errors. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Genetic differentiation between and within Northern Native American language groups: an argument for the expansion of the Native American CODIS database.

Author

Weise, Jessica A., Ng, Jillian, Oldt, Robert F., Viray, Joy, McCulloh, Kelly L., Smith, David Glenn, and Kanthaswamy, Sreetharan

Subjects
NATIVE American languages, FORENSIC genetics, NATIVE Americans, SHORT tandem repeat analysis, DATABASES, MICROSATELLITE repeats, CLUSTER analysis (Statistics)
Abstract

The National Research Council recommends that genetic differentiation among subgroups of ethnic samples be lower than 3% of the total genetic differentiation within the ethnic sample to be used for estimating reliable random match probabilities for forensic use. Native American samples in the United States' Combined DNA Index System (CODIS) database represent four language families: Algonquian, Na-Dene, Eskimo-Aleut, and Salishan. However, a minimum of 27 Native American language families exists in the US, not including language isolates. Our goal was to ascertain whether genetic differences are correlated with language groupings and, if so, whether additional language families would provide a more accurate representation of current genetic diversity among tribal populations. The 21 short tandem repeat (STR) loci included in the Globalfiler® PCR Amplification Kit were used to characterize six indigenous language families, including three of the four represented in the CODIS database (i.e. Algonquian, Na-Dene, and Eskimo-Aleut), and two language isolates (Miwok and Seri) using major population genetic diversity metrics such as F statistics and Bayesian clustering analysis of genotype frequencies. Most of the genetic variation (97%) was found to be within language families instead of among them (3%). In contrast, when only the three of the four language families represented in both the CODIS database and the present study were considered, 4% of the genetic variation occurred among the language groups. Bayesian clustering resulted in a maximum posterior probability indicating three genetically distinct groups among the eight language families and isolates: (1) Eskimo, (2) Seri, and (3) all other language groups and isolates, thus confirming genetic subdivision among subgroups of the CODIS Native American database. This genetic structure indicates the need for an increased number of Native American populations based on language affiliation in the CODIS database as well as more robust sample sets for those language families. Supplemental data for this article is available online at https://doi.org/10.1080/20961790.2021.1963088. [ABSTRACT FROM AUTHOR]

Published
2022
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13. An Inter-Laboratory Study of DNA-Based Identity, Parentage and Species Testing in Animal Forensic Genetics

Author

Kanthaswamy, Sreetharan, primary, Brendel, Torsten, additional, Cancela, Luis, additional, Andrade de Oliveira, Denise A., additional, Brenig, Bertram, additional, Cons, Carmen, additional, Crespi, Julian A., additional, Dajbychová, Markéta, additional, Feldl, Andreas, additional, Itoh, Tomohito, additional, Landi, Vincenzo, additional, Martinez, Amparo, additional, Natonek-Wisniewska, Malgorzata, additional, Oldt, Robert F., additional, Radko, Anna, additional, Ramírez, Oscar, additional, Rodellar, Clementina, additional, Ruiz-Girón, Manuel, additional, Schikorski, David, additional, Turba, María Elena, additional, and Giovambatista, Guillermo, additional

Published
2021
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16. Population Structure of Macaca fascicularis aurea, and their Genetic Relationships with M. f. fascicularis and M. mulatta Determined by 868 RADseq‐Derived Autosomal SNPs—A consideration for biomedical research.

Author

Phadphon, Poompat, Kanthaswamy, Sree, Oldt, Robert F., Hamada, Yuzuru, and Malaivijitnond, Suchinda

Subjects
KRA, MACAQUES, MEDICAL research, SINGLE nucleotide polymorphisms, HYBRID zones, RHESUS monkeys
Abstract

Background: This study examined the population structure of Macaca fascicularis aurea and their genetic relationships with M. f. fascicularis and M. mulatta. Methods: The study analyzed 868 RADseq‐derived SNPs from samples representing the entire distribution range of M. f. aurea, including their inter‐ and intraspecific hybrid zones. Results: The study supports a M. mulatta/Indochinese M. f. fascicularis, Sundaic M. f. fascicularis, and M. f. aurea trichotomy; M. f. aurea was genetically distinct from both forms of M. f. fascicularis and M. mulatta. Hybridization between M. f. aurea and M. f. fascicularis occurred in two directions: south‐north (8°25′ to 15°56′) and west‐east (98°28′ to 99°02′). Low levels of M. mulatta introgression were also detected in M. f. aurea. Conclusion: This study showcases a complicated scenario of genetic relationships between the M. fascicularis subspecies and between M. fascicularis and M. mulatta and underscores the importance of these taxa's population structure and genetic relationships for biomedical research. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Partial sequence analyses of exon 7 of the ABO locus of cynomolgus ( Macaca fascicularis ) and rhesus ( M. mulatta ) macaques: Indeterminate phenotypes show the presence of the O blood group

Author

Kanthaswamy, Sreetharan, primary, Oldt, Robert F., additional, Said, Ruweida, additional, Grijalva, Jose, additional, Falak, Asiya, additional, Jensen, Ashley, additional, Vizor, Choice, additional, Houghton, Paul, additional, Bunlungsup, Srichan, additional, Malaivijitnond, Suchinda, additional, and Smith, David G., additional

Published
2019
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20. Population Genetic Structure of the Cayo Santiago Colony of Rhesus Macaques (Macaca mulatta)

Author

Kanthaswamy, Sreetharan, Oldt, Robert F, Ng, Jillian, Ruiz-Lambides, Angelina V, Maldonado, Elizabeth, Martínez, Melween I, and Sariol, Carlos A

Subjects
Islands, Male, Genetics, Population, Puerto Rico, Animals, Genetic Variation, Animals, Wild, Female, Animal Population Groups, Macaca mulatta, Management, Microsatellite Repeats, Pedigree
Abstract

The rhesus macaque population at Cayo Santiago increases annually and is in urgent need of control. In-depth assessments of the colony's population genetic and pedigree structures provide a starting point for improving the colony's long-term management program. We evaluated the degree of genetic variation and coefficients of inbreeding and kinship of the Cayo Santiago colony by using pedigree and short tandem repeat (STR) data from 4738 rhesus macaques, which represent 7 extant social groups and a group of migrant males. Information on each animal's parentage, sex, birth date, and date of death or removal from the island were used to generate estimates of mean kinship, kinship value, gene value, genome uniqueness (GU), founder equivalents (fe), and founder genome equivalents (fg). Pedigree and STR analyses revealed that the social groups have not differentiated genetically from each other due to male-mediated gene flow (that is, FST estimates were in the negative range) and exhibit sufficient genetic variation, with mean estimates of allele numbers and observed and expected heterozygosity of 6.57, 0.72, and 0.70, respectively. Estimates of GU, fe, and fg show that a high effective number of founders has affected the colony's current genetic structure in a positive manner. As demographic changes occur, genetic and pedigree matrices need to be monitored consistently to ensure the health and wellbeing of the Cayo Santiago colony.

Published
2017

26. Population genetics of the ABO locus within the rhesus (Macaca mulatta) and cynomolgus (M. fascicularis) macaque hybrid zone.

Author

Oldt, Robert F., Kanthaswamy, Sreetharan, Montes, Mae, Schumann, Laura, Grijalva, Jose, Bunlungsup, Srichan, Houghton, Paul, Smith, David Glenn, and Malaivijitnond, Suchinda

Subjects
*POPULATION genetics, *ABO blood group system, *KRA, *RHESUS monkeys, *BLOOD transfusion, *ANIMAL models in research
Abstract

Knowledge of the macaque ABO blood group system has been critical in the development of nonhuman primates (NHPs) as a translational model. Serving not only as a useful homologue of the disease‐linked ABO system in humans, macaque ABO blood groups must be typed in colonies prior to performing experimental procedures requiring blood transfusion or transplantation. While the rates of blood type incompatibility and the distributions of A, B and AB blood groups are known in large samples of rhesus (Macaca mulatta) and cynomolgus (M. fascicularis) macaques, there is a dearth of blood type data from macaque populations occupying the rhesus‐cynomolgus hybrid zone in Southeast Asia. Using molecular phenotyping, we profiled ABO blood group distributions of 232 macaques from 10 populations in the hybrid zone and compared them to pure blood populations of the two species. We found that while these distributions are significantly different in most populations, there was a lack of differentiation between the hybrid and cynomolgus macaques as well as between the Thai and neighbouring populations. This supports a more expansive model of hybridization between rhesus and cynomolgus macaques than often proposed and highlights the increased need for consideration of population genetic structure in biomedical studies that employ macaques as animal models. Additionally, we report an enrichment of indeterminate blood types in the hybrid populations. [ABSTRACT FROM AUTHOR]

Published
2019
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28. SNP‐based genetic characterization of the Tulane National Primate Research Center's conventional and specific pathogen‐free rhesus macaque (<italic>Macaca mulatta</italic>) populations.

Author

Kanthaswamy, Sree, Ng, Jillian, Oldt, Robert F., Phillippi‐Falkenstein, Kathrine, and Kubisch, H. Michael

Subjects
RHESUS monkeys, MACAQUES, PHENOTYPES, GENETIC research, ENDANGERED species
Abstract

Abstract: Background: The rhesus macaque is an important biomedical model organism, and the Tulane National Primate Research Center (TNPRC) has one of the largest rhesus macaque breeding colonies in the United States. Methods: SNP profiles from 3266 rhesus macaques were used to examine the TNPRC colony genetic composition over time and across conventional or SPF animals of Chinese and Indian ancestry. Results: Chinese origin animals were the least genetically diverse and the most inbred; however, since their derivation from their conventional forebearers, neither the Chinese nor the Indian SPF animals exhibit any significant loss of genetic diversity or differentiation. Conclusions: The TNPRC colony managers have successfully minimized loss in genetic variation across generations. Although founder effects and bottlenecks among the Indian animals have been successfully curtailed, the Chinese subpopulation still show some influences from these events. [ABSTRACT FROM AUTHOR]

Published
2018
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30. Population Genetic Structure of the Cayo Santiago Colony of Rhesus Macaques ( Macaca mulatta ).

Author

Kanthaswamy S, Oldt RF, Ng J, Ruiz-Lambides AV, Maldonado E, Martínez MI, and Sariol CA

Subjects
Animal Population Groups, Animals, Animals, Wild, Female, Genetic Variation, Genetics, Population, Islands, Male, Microsatellite Repeats, Pedigree, Puerto Rico, Macaca mulatta genetics
Abstract

The rhesus macaque population at Cayo Santiago increases annually and is in urgent need of control. In-depth assessments of the colony's population genetic and pedigree structures provide a starting point for improving the colony's long-term management program. We evaluated the degree of genetic variation and coefficients of inbreeding and kinship of the Cayo Santiago colony by using pedigree and short tandem repeat (STR) data from 4738 rhesus macaques, which represent 7 extant social groups and a group of migrant males. Information on each animal's parentage, sex, birth date, and date of death or removal from the island were used to generate estimates of mean kinship, kinship value, gene value, genome uniqueness (GU), founder equivalents (fe), and founder genome equivalents (fg). Pedigree and STR analyses revealed that the social groups have not differentiated genetically from each other due to male-mediated gene flow (that is, FST estimates were in the negative range) and exhibit sufficient genetic variation, with mean estimates of allele numbers and observed and expected heterozygosity of 6.57, 0.72, and 0.70, respectively. Estimates of GU, fe, and fg show that a high effective number of founders has affected the colony's current genetic structure in a positive manner. As demographic changes occur, genetic and pedigree matrices need to be monitored consistently to ensure the health and wellbeing of the Cayo Santiago colony.

Published
2017

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