Your search keyword '"Dobrynin, Pavel"' showing total 31 results

1. Epigenetic Patterns Modulate the Connection Between Developmental Dynamics of Parenting and Offspring Psychosocial Adjustment

Author

Naumova, Oksana Yu., Suderman, Matthew, Lee, Maria, Raefski, Adam, Brown, Pamela J., Luthar, Suniya S., Hein, Sascha, Barbot, Baptiste, Dobrynin, Pavel V., Szyf, Moshe, and Grigorenko, Elena L.

Published

2016

2. Sequencing-based transcriptome analysis reveals diversification of immune response- and angiogenesis-related expression patterns of early-stage cervical carcinoma as compared with high-grade CIN.

Author

Kurmyshkina, Olga V., Dobrynin, Pavel V., Kovchur, Pavel I., and Volkova, Tatyana O.

Subjects

GENE expression, GENE families, CARCINOMA, TRANSCRIPTOMES, TUMOR microenvironment, CERVICAL intraepithelial neoplasia

Abstract

Background: Molecular diversity of virus-associated cervical cancer remains a relatively underexplored issue, and interrelations of immunologic and angiogenic features during the establishment of a particular landscape of the cervical cancer microenvironment are not well-characterized, especially for its earliest clinical stages, although this may provide insight into the mechanisms behind the differences in tumor aggressiveness, treatment responsiveness and prognosis. In this research, we were aimed at identifying transcriptomic landscapes of earlystage cervical carcinoma that differ substantially in their immune-related characteristics, patterns of signaling pathways and composition of the microenvironment in comparison with immediate precursor (intraepithelial) lesions. Methods: We performed the Illumina platform-based RNA sequencing using a panel of fresh tissue samples that included human papillomavirus-positive cervical intraepithelial neoplastic lesions (CIN), invasive squamous carcinoma of the cervix of FIGO IA1-IIB stages, and morphologically normal epithelium. The derived transcriptomic profiles were bioinformatically analyzed and compared by patterns of signaling pathway activation, distribution of tumor-infiltrating cell populations, and genomic regions involved. Result: According to hierarchical cluster analysis of the whole-transcriptome profiles, tissue samples were distributed between three groups, or gene expression patterns (the one comprising most pre-cancer cases and the other two encompassing mostly early-stage invasive cancer cases). Differentially expressed genes were retrieved in each intergroup pairwise comparison followed by Gene Ontology analysis. Gene set enrichment analysis of the two groups of tumor samples in comparison with the CIN group identified substantial differences in immunological and angiogenic properties between tumorous groups suggesting the development of different molecular phenotypes. Cell composition analysis confirmed the diverse changes in the abundancies of immune and non-immune populations and, accordingly, different impacts of the immune and stromal compartments on the tumor microenvironment in these two groups of tumors compared to CIN. Positional gene expression analysis demonstrated that the identified transcriptomic differences were linked to different chromosomal regions and co-localized with particular gene families implicated in immune regulation, inflammation, cell differentiation, and tumor invasion. Conclusions: Overall, detection of different transcriptomic patterns of invasive cervical carcinoma at its earliest stages supports the diverse impacts of immune response- and angiogenesis-related mechanisms on the onset of tumor invasion and progression. This may provide new options for broadening the applicability and increasing the efficiency of target anti-angiogenic and immune-based therapy of virus-associated cervical carcinoma. [ABSTRACT FROM AUTHOR]

Published

2023

3. Conservation Genetics of the Cheetah: Lessons Learned and New Opportunities

Author

O’Brien, Stephen J, Johnson, Warren E, Driscoll, Carlos A, Dobrynin, Pavel, and Marker, Laurie

Published

2017

4. Chromosome-Length Assembly of the Baikal Seal (Pusa sibirica) Genome Reveals a Historically Large Population Prior to Isolation in Lake Baikal.

Author

Yakupova, Aliya, Tomarovsky, Andrey, Totikov, Azamat, Beklemisheva, Violetta, Logacheva, Maria, Perelman, Polina L., Komissarov, Aleksey, Dobrynin, Pavel, Krasheninnikova, Ksenia, Tamazian, Gaik, Serdyukova, Natalia A., Rayko, Mike, Bulyonkova, Tatiana, Cherkasov, Nikolay, Pylev, Vladimir, Peterfeld, Vladimir, Penin, Aleksey, Balanovska, Elena, Lapidus, Alla, and OBrien, Stephen J.

Subjects

KARYOTYPES, GENOMES, GENETIC variation, CHROMOSOME inversions, ICE sheets, SPECIES diversity, LAKES, HETEROZYGOSITY

Abstract

Pusa sibirica, the Baikal seal, is the only extant, exclusively freshwater, pinniped species. The pending issue is, how and when they reached their current habitat—the rift lake Baikal, more than three thousand kilometers away from the Arctic Ocean. To explore the demographic history and genetic diversity of this species, we generated a de novo chromosome-length assembly, and compared it with three closely related marine pinniped species. Multiple whole genome alignment of the four species compared with their karyotypes showed high conservation of chromosomal features, except for three large inversions on chromosome VI. We found the mean heterozygosity of the studied Baikal seal individuals was relatively low (0.61 SNPs/kbp), but comparable to other analyzed pinniped samples. Demographic reconstruction of seals revealed differing trajectories, yet remarkable variations in Ne occurred during approximately the same time periods. The Baikal seal showed a significantly more severe decline relative to other species. This could be due to the difference in environmental conditions encountered by the earlier populations of Baikal seals, as ice sheets changed during glacial–interglacial cycles. We connect this period to the time of migration to Lake Baikal, which occurred ~3–0.3 Mya, after which the population stabilized, indicating balanced habitat conditions. [ABSTRACT FROM AUTHOR]

Published

2023

5. GADMA2: more efficient and flexible demographic inference from genetic data.

Author

Noskova, Ekaterina, Abramov, Nikita, Iliutkin, Stanislav, Sidorin, Anton, Dobrynin, Pavel, and Ulyantsev, Vladimir I

Subjects

OPTIMIZATION algorithms, GLOBAL optimization, HISTORICAL source material, RESEARCH personnel, PARAMETER estimation

Abstract

Background Inference of complex demographic histories is a source of information about events that happened in the past of studied populations. Existing methods for demographic inference typically require input from the researcher in the form of a parameterized model. With an increased variety of methods and tools, each with its own interface, the model specification becomes tedious and error-prone. Moreover, optimization algorithms used to find model parameters sometimes turn out to be inefficient, for instance, by being not properly tuned or highly dependent on a user-provided initialization. The open-source software GADMA addresses these problems, providing automatic demographic inference. It proposes a common interface for several likelihood engines and provides global parameters optimization based on a genetic algorithm. Results Here, we introduce the new GADMA2 software and provide a detailed description of the added and expanded features. It has a renovated core code base, new likelihood engines, an updated optimization algorithm, and a flexible setup for automatic model construction. We provide a full overview of GADMA2 enhancements, compare the performance of supported likelihood engines on simulated data, and demonstrate an example of GADMA2 usage on 2 empirical datasets. Conclusions We demonstrate the better performance of a genetic algorithm in GADMA2 by comparing it to the initial version and other existing optimization approaches. Our experiments on simulated data indicate that GADMA2's likelihood engines are able to provide accurate estimations of demographic parameters even for misspecified models. We improve model parameters for 2 empirical datasets of inbred species. [ABSTRACT FROM AUTHOR]

Published

2023

6. Multiple types of genomic variation contribute to adaptive traits in the mustelid subfamily Guloninae.

Author

Derežanin, Lorena, Blažytė, Asta, Dobrynin, Pavel, Duchêne, David A., Grau, José Horacio, Jeon, Sungwon, Kliver, Sergei, Koepfli, Klaus‐Peter, Meneghini, Dorina, Preick, Michaela, Tomarovsky, Andrey, Totikov, Azamat, Fickel, Jörns, and Förster, Daniel W.

Subjects

GENOMICS, SINGLE nucleotide polymorphisms, COMPARATIVE genomics, ECOLOGICAL niche, FAMILY size, GENE families

Abstract

Species of the mustelid subfamily Guloninae inhabit diverse habitats on multiple continents, and occupy a variety of ecological niches. They differ in feeding ecologies, reproductive strategies and morphological adaptations. To identify candidate loci associated with adaptations to their respective environments, we generated a de novo assembly of the tayra (Eira barbara), the earliest diverging species in the subfamily, and compared this with the genomes available for the wolverine (Gulo gulo) and the sable (Martes zibellina). Our comparative genomic analyses included searching for signs of positive selection, examining changes in gene family sizes and searching for species‐specific structural variants. Among candidate loci associated with phenotypic traits, we observed many related to diet, body condition and reproduction. For example, for the tayra, which has an atypical gulonine reproductive strategy of aseasonal breeding, we observed species‐specific changes in many pregnancy‐related genes. For the wolverine, a circumpolar hypercarnivore that must cope with seasonal food scarcity, we observed many changes in genes associated with diet and body condition. All types of genomic variation examined (single nucleotide polymorphisms, gene family expansions, structural variants) contributed substantially to the identification of candidate loci. This argues strongly for consideration of variation other than single nucleotide polymorphisms in comparative genomics studies aiming to identify loci of adaptive significance. [ABSTRACT FROM AUTHOR]

Published

2022

7. A Study of the Genomic Variations Associated with Autistic Spectrum Disorders in a Russian Cohort of Patients Using Whole-Exome Sequencing.

Author

Gibitova, Ekaterina A., Dobrynin, Pavel V., Pomerantseva, Ekaterina A., Musatova, Elizaveta V., Kostareva, Anna, Evsyukov, Igor, Rychkov, Sergey Y., Zhukova, Olga V., Naumova, Oxana Y., and Grigorenko, Elena L.

Subjects

*AUTISM spectrum disorders, *CHILDREN with autism spectrum disorders, *SINGLE nucleotide polymorphisms, *AUTISTIC children, *INTELLECTUAL disabilities

Abstract

This study provides new data on the whole-exome sequencing of a cohort of children with autistic spectrum disorders (ASD) from an underexplored Russian population. Using both a cross-sectional approach involving a control cohort of the same ancestry and an annotation-based approach involving relevant public databases, we explored exonic single nucleotide variants and copy-number variation potentially involved in the manifestation of ASD. The study results reveal new potential ASD candidate-variants found in the studied Russian cohort and show a high prevalence of common ASD-associated genomic variants, especially those in the genes known to be associated with the manifestation of intellectual disabilities. Our screening of an ASD cohort from a previously understudied population allowed us to flag at least a few novel genes (IGLJ2, FAM21A, OR11H12, HIP1, PRAMEF10, and ZNF717) regarding their potential involvement in ASD. [ABSTRACT FROM AUTHOR]

Published

2022

8. Insights from the rescue and breeding management of Cuvier's gazelle (Gazella cuvieri) through whole‐genome sequencing.

Author

Alvarez‐Estape, Marina, Fontsere, Claudia, Serres‐Armero, Aitor, Kuderna, Lukas F. K., Dobrynin, Pavel, Guidara, Héla, Pukazhenthi, Budhan S., Koepfli, Klaus‐Peter, Marques‐Bonet, Tomas, Moreno, Eulalia, and Lizano, Esther

Subjects

NUCLEOTIDE sequencing, GAZELLES, GENETIC variation, HOMOZYGOSITY, ENDANGERED species, WILDLIFE conservation

Abstract

Captive breeding programmes represent the most intensive type of ex situ population management for threatened species. One example is the Cuvier's gazelle programme that started in 1975 with only four founding individuals, and after more than four decades of management in captivity, a reintroduction effort was undertaken in Tunisia in 2016, to establish a population in an area historically included within its range. Here, we aim to determine the genetic consequences of this reintroduction event by assessing the genetic diversity of the founder stock as well as of their descendants. We present the first whole‐genome sequencing dataset of 30 Cuvier's gazelles including captive‐bred animals, animals born in Tunisia after a reintroduction and individuals from a genetically unrelated Moroccan population. Our analyses revealed no difference between the founder and the offspring cohorts in genome‐wide heterozygosity and inbreeding levels, and in the amount and length of runs of homozygosity. The captive but unmanaged Moroccan gazelles have the lowest genetic diversity of all genomes analysed. Our findings demonstrate that the Cuvier's gazelle captive breeding programme can serve as source populations for future reintroductions of this species. We believe that this study can serve as a starting point for global applications of genomics to the conservation plan of this species. [ABSTRACT FROM AUTHOR]

Published

2022

9. Draft de novo Genome Assembly of the Elusive Jaguarundi, Puma yagouaroundi.

Author

Tamazian, Gaik, Dobrynin, Pavel, Zhuk, Anna, Zhernakova, Daria V, Perelman, Polina L, Serdyukova, Natalia A, Graphodatsky, Alexander S, Komissarov, Aleksey, Kliver, Sergei, Cherkasov, Nikolay, Scott, Alan F, Mohr, David W, Koepfli, Klaus-Peter, O'Brien, Stephen J, and Krasheninnikova, Ksenia

Subjects

*CHEETAH, *PUMAS, *GENOMES, *CHROMOSOMES, *GENOMICS, *FELIDAE

Abstract

The Puma lineage within the family Felidae consists of 3 species that last shared a common ancestor around 4.9 million years ago. Whole-genome sequences of 2 species from the lineage were previously reported: the cheetah (Acinonyx jubatus) and the mountain lion (Puma concolor). The present report describes a whole-genome assembly of the remaining species, the jaguarundi (Puma yagouaroundi). We sequenced the genome of a male jaguarundi with 10X Genomics linked reads and assembled the whole-genome sequence. The assembled genome contains a series of scaffolds that reach the length of chromosome arms and is similar in scaffold contiguity to the genome assemblies of cheetah and puma, with a contig N50 = 100.2 kbp and a scaffold N50 = 49.27 Mbp. We assessed the assembled sequence of the jaguarundi genome using BUSCO, aligned reads of the sequenced individual and another published female jaguarundi to the assembled genome, annotated protein-coding genes, repeats, genomic variants and their effects with respect to the protein-coding genes, and analyzed differences of the 2 jaguarundis from the reference mitochondrial genome. The jaguarundi genome assembly and its annotation were compared in quality, variants, and features to the previously reported genome assemblies of puma and cheetah. Computational analyzes used in the study were implemented in transparent and reproducible way to allow their further reuse and modification. [ABSTRACT FROM AUTHOR]

Published

2021

10. Chromosomal‐level genome assembly of the scimitar‐horned oryx: Insights into diversity and demography of a species extinct in the wild.

Author

Humble, Emily, Dobrynin, Pavel, Senn, Helen, Chuven, Justin, Scott, Alan F., Mohr, David W., Dudchenko, Olga, Omer, Arina D., Colaric, Zane, Lieberman Aiden, Erez, Al Dhaheri, Shaikha Salem, Wildt, David, Oliaji, Shireen, Tamazian, Gaik, Pukazhenthi, Budhan, Ogden, Rob, and Koepfli, Klaus‐Peter

Subjects

*SPECIES diversity, *CLIMATE change, *ENDANGERED species, *CHROMOSOMES, *SINGLE nucleotide polymorphisms

Abstract

Captive populations provide a valuable insurance against extinctions in the wild. However, they are also vulnerable to the negative impacts of inbreeding, selection and drift. Genetic information is therefore considered a critical aspect of conservation management. Recent developments in sequencing technologies have the potential to improve the outcomes of management programmes; however, the transfer of these approaches to applied conservation has been slow. The scimitar‐horned oryx (Oryx dammah) is a North African antelope that has been extinct in the wild since the early 1980s and is the focus of a large‐scale and long‐term reintroduction project. To enable the selection of suitable founder individuals, facilitate post‐release monitoring and improve captive breeding management, comprehensive genomic resources are required. Here, we used 10X Chromium sequencing together with Hi‐C contact mapping to develop a chromosomal‐level genome assembly for the species. The resulting assembly contained 29 chromosomes with a scaffold N50 of 100.4 Mb, and displayed strong chromosomal synteny with the cattle genome. Using resequencing data from six additional individuals, we demonstrated relatively high genetic diversity in the scimitar‐horned oryx compared to other mammals, despite it having experienced a strong founding event in captivity. Additionally, the level of diversity across populations varied according to management strategy. Finally, we uncovered a dynamic demographic history that coincided with periods of climate variation during the Pleistocene. Overall, our study provides a clear example of how genomic data can uncover valuable insights into captive populations and contributes important resources to guide future management decisions of an endangered species. [ABSTRACT FROM AUTHOR]

Published

2020

11. Comparison of genomic diversity and structure of sable antelope (Hippotragus niger) in zoos, conservation centers, and private ranches in North America.

Author

Gooley, Rebecca M., Tamazian, Gaik, Castañeda‐Rico, Susette, Murphy, Katherine R., Dobrynin, Pavel, Ferrie, Gina M., Haefele, Holly, Maldonado, Jesús E., Wildt, David E., Pukazhenthi, Budhan S., Edwards, Cody W., and Koepfli, Klaus‐Peter

Subjects

ANTELOPES, ANIMAL herds, SINGLE nucleotide polymorphisms, GENETIC drift, ZOOS, HOLOCENE extinction, RANCHING

Abstract

As we enter the sixth mass extinction, many species that are no longer self‐sustaining in their natural habitat will require ex situ management. Zoos have finite resources for ex situ management, and there is a need for holistic conservation programs between the public and private sector. Ex situ populations of sable antelope, Hippotragus niger, have existed in zoos and privately owned ranches in North America since the 1910s. Unknown founder representation and relatedness has made the genetic management of this species challenging within zoos, while populations on privately owned ranches are managed independently and retain minimal‐to‐no pedigree history. Consequences of such challenges include an increased risk of inbreeding and a loss of genetic diversity. Here, we developed and applied a customized targeted sequence capture panel based on 5,000 genomewide single‐nucleotide polymorphisms to investigate the genomic diversity present in these uniquely managed populations. We genotyped 111 sable antelope: 23 from zoos, 43 from a single conservation center, and 45 from ranches. We found significantly higher genetic diversity and significantly lower inbreeding in herds housed in zoos and conservation centers, when compared to those in privately owned ranches, likely due to genetic‐based breeding recommendations implemented in the former populations. Genetic clustering was strong among all three populations, possibly as a result of genetic drift. We propose that the North American ex situ population of sable antelope would benefit from a metapopulation management system, to halt genetic drift, reduce the occurrence of inbreeding, and enable sustainable population sizes to be managed ex situ. [ABSTRACT FROM AUTHOR]

Published

2020

12. Molecular-genetic analysis of Mycobacterium tuberculosis strains spread in different patient groups in St.Petersburg (Russia)

Author

Chernyaeva, Ekaterina, Dobrynin, Pavel, Pestova, Natalia, Matveeva, Natalia, Zhemkov, Vladimir, and Kozlov, Andrei

Published

2011

13. Analytical “bake-off” of whole genome sequencing quality for the Genome Russia project using a small cohort for autoimmune hepatitis.

Author

Zhernakova, Daria V., Kliver, Sergei, Cherkasov, Nikolay, Tamazian, Gaik, Rotkevich, Mikhail, Krasheninnikova, Ksenia, Evsyukov, Igor, Sidorov, Sviatoslav, Dobrynin, Pavel, Yurchenko, Andrey A., Shimansky, Valentin, Shcherbakova, Irina V., Glotov, Andrey S., Valle, David L., Tang, Minzhong, Shin, Emilia, Schwarz, Kathleen B., and O'Brien, Stephen J.

Subjects

CHRONIC active hepatitis, NUCLEOTIDE sequencing, MEDICAL centers, DNA microarrays

Abstract

A comparative analysis of whole genome sequencing (WGS) and genotype calling was initiated for ten human genome samples sequenced by St. Petersburg State University Peterhof Sequencing Center and by three commercial sequencing centers outside of Russia. The sequence quality, efficiency of DNA variant and genotype calling were compared with each other and with DNA microarrays for each of ten study subjects. We assessed calling of SNPs, indels, copy number variation, and the speed of WGS throughput promised. Twenty separate QC analyses showed high similarities among the sequence quality and called genotypes. The ten genomes tested by the centers included eight American patients afflicted with autoimmune hepatitis (AIH), plus one case’s unaffected parents, in a prelude to discovering genetic influences in this rare disease of unknown etiology. The detailed internal replication and parallel analyses allowed the observation of two of eight AIH cases carrying a rare allele genotype for a previously described AIH-associated gene (FTCD), plus multiple occurrences of known HLA-DRB1 alleles associated with AIH (HLA-DRB1-03:01:01, 13:01:01 and 7:01:01). We also list putative SNVs in other genes as suggestive in AIH influence. [ABSTRACT FROM AUTHOR]

Published

2018

14. Conservation Genetics of the Cheetah: Lessons Learned and New Opportunities.

Author

O'Brien, Stephen J., Johnson, Warren E., Driscoll, Carlos A., Dobrynin, Pavel, and Marker, Laurie

Subjects

GENETICS, ANIMALS, BIOLOGICAL classification, CHEETAH, BIOMATHEMATICS

Abstract

The dwindling wildlife species of our planet have become a cause célèbre for conservation groups, governments, and concerned citizens throughout the world. The application of powerful new genetic technologies to surviving populations of threatened mammals has revolutionized our ability to recognize hidden perils that afflict them. We have learned new lessons of survival, adaptation, and evolution from viewing the natural history of genomes in hundreds of detailed studies. A single case history of one species, the African cheetah, Acinonyx jubatus, is here reviewed to reveal a long-term story of conservation challenges and action informed by genetic discoveries and insights. A synthesis of 3 decades of data, interpretation, and controversy, capped by whole genome sequence analysis of cheetahs, provides a compelling tale of conservation relevance and action to protect this species and other threatened wildlife. [ABSTRACT FROM AUTHOR]

Published

2017

15. Mitogenomic sequences support a north–south subspecies subdivision within Solenodon paradoxus.

Author

Brandt, Adam L., Grigorev, Kirill, Afanador-Hernández, Yashira M., Paulino, Liz A., Murphy, William J., Núñez, Adrell, Komissarov, Aleksey, Brandt, Jessica R., Dobrynin, Pavel, Hernández-Martich, J. David, María, Roberto, O'Brien, Stephen J., Rodríguez, Luis E., Martínez-Cruzado, Juan C., Oleksyk, Taras K., and Roca, Alfred L.

Subjects

INSECTIVORES (Mammals), GENOMES, PHYLOGENY, MAMMALS, GENETICS

Abstract

Solenodons are insectivores found only in Hispaniola and Cuba, with a Mesozoic divergence date versus extant mainland mammals. Solenodons are the oldest lineage of living eutherian mammal for which a mitogenome sequence has not been reported. We determined complete mitogenome sequences for six Hispaniolan solenodons (Solenodon paradoxus) using next-generation sequencing. The solenodon mitogenomes were 16,454–16,457 bp long and carried the expected repertoire of genes. A mitogenomic phylogeny confirmed the basal position of solenodons relative to shrews and moles, with solenodon mitogenomes estimated to have diverged from those of other mammals ca. 78 Mya. Control region sequences of solenodons from the northern (n = 3) and southern (n = 5) Dominican Republic grouped separately in a network, withFST= 0.72 (p = 0.036) between north and south. This regional genetic divergence supports previous morphological and genetic reports recognizing northern (S. p. paradoxus) and southern (S. p. woodi) subspecies in need of separate conservation plans. [ABSTRACT FROM PUBLISHER]

Published

2017

16. Genome Sequencing and Comparative Analysis of Saccharomyces cerevisiae Strains of the Peterhof Genetic Collection.

Author

Drozdova, Polina B., Tarasov, Oleg V., Matveenko, Andrew G., Radchenko, Elina A., Sopova, Julia V., Polev, Dmitrii E., Inge-Vechtomov, Sergey G., and Dobrynin, Pavel V.

Subjects

NUCLEOTIDE sequencing, SACCHAROMYCES cerevisiae, PHENYLALANINE, AUXOTROPHY, MOLECULAR biology, COMPARATIVE studies

Abstract

The Peterhof genetic collection of Saccharomyces cerevisiae strains (PGC) is a large laboratory stock that has accumulated several thousands of strains for over than half a century. It originated independently of other common laboratory stocks from a distillery lineage (race XII). Several PGC strains have been extensively used in certain fields of yeast research but their genomes have not been thoroughly explored yet. Here we employed whole genome sequencing to characterize five selected PGC strains including one of the closest to the progenitor, 15V-P4, and several strains that have been used to study translation termination and prions in yeast (25-25-2V-P3982, 1B-D1606, 74-D694, and 6P-33G-D373). The genetic distance between the PGC progenitor and S288C is comparable to that between two geographically isolated populations. The PGC seems to be closer to two bakery strains than to S288C-related laboratory stocks or European wine strains. In genomes of the PGC strains, we found several loci which are absent from the S288C genome; 15V-P4 harbors a rare combination of the gene cluster characteristic for wine strains and the RTM1 cluster. We closely examined known and previously uncharacterized gene variants of particular strains and were able to establish the molecular basis for known phenotypes including phenylalanine auxotrophy, clumping behavior and galactose utilization. Finally, we made sequencing data and results of the analysis available for the yeast community. Our data widen the knowledge about genetic variation between Saccharomyces cerevisiae strains and can form the basis for planning future work in PGC-related strains and with PGC-derived alleles. [ABSTRACT FROM AUTHOR]

Published

2016

17. PGD: a pangolin genome hub for the research community.

Author

Tze King Tan, Ka Yun Tan, Hari, Ranjeev, Yusoff, Aini Mohamed, Guat Jah Wong, Siow, Cheuk Chuen, Mutha, Naresh V. R., Rayko, Mike, Komissarov, Aleksey, Dobrynin, Pavel, Krasheninnikova, Ksenia, Tamazian, Gaik, Paterson, Ian C., Warren, Wesley C., Johnson, Warren E., O'Brien, Stephen J., and Siew Woh Choo

Subjects

WILDLIFE conservation, PANGOLINS, ENDANGERED species, NUCLEOTIDE sequencing, MAMMALIAN cell cycle

Abstract

Pangolins (order Pholidota) are the only mammals covered by scales. We have recently sequenced and analyzed the genomes of two critically endangered Asian pangolin species, namely the Malayan pangolin (Manis javanica) and the Chinese pangolin (Manis pentadactyla). These complete genome sequences will serve as reference sequences for future research to address issues of species conservation and to advance knowledge in mammalian biology and evolution. To further facilitate the global research effort in pangolin biology, we developed the Pangolin Genome Database (PGD), as a future hub for hosting pangolin genomic and transcriptomic data and annotations, andwith useful analysis tools for the research community. Currently, the PGD provides the reference pangolin genome and transcriptome data, gene sequences and functional information, expressed transcripts, pseudogenes, genomic variations, organ-specific expression data and other useful annotations. We anticipate that the PGD will be an invaluable platform for researchers who are interested in pangolin andmammalian research. We will continue updating this hub by including more data, annotation and analysis tools particularly from our research consortium. [ABSTRACT FROM AUTHOR]

Published

2016

18. Genomic legacy of the African cheetah, Acinonyx jubatus.

Author

Dobrynin, Pavel, Shiping Liu, Tamazian, Gaik, Zijun Xiong, Yurchenko, Andrey A., Krasheninnikova, Ksenia, Kliver, Sergey, Schmidt-Küntzel, Anne, Koepfli, Klaus-Peter, Johnson, Warren, Kuderna, Lukas F. K., García-Pérez, Raquel, de Manuel, Marc, Godinez, Ricardo, Komissarov, Aleksey, Makunin, Alexey, Brukhin, Vladimir, Weilin Qiu, Long Zhou, and Fang Li

Published

2015

19. Nicotiana glauca whole-genome investigation for cT-DNA study.

Author

Khafizova, Galina, Dobrynin, Pavel, Polev, Dmitrii, and Matveeva, Tatiana

Subjects

*TOBACCO, *RHIZOBIUM rhizogenes, *HORIZONTAL gene transfer, *TRANSGENIC plants, *GENETIC transformation, *GENOMICS, *COMPARATIVE studies, *GENETICS

Abstract

Objective: Nicotiana glauca (tree tobacco) is a naturally transgenic plant, containing sequences acquired from Agrobacterium rhizogenes by horizontal gene transfer. Besides, N. glauca contains a wide profile of alkaloids of medical interest. Data description: We report a high-depth sequencing and de novo assembly of N. glauca full genome and analysis of genome elements with bacterial origin. The draft genome assembly is 3.2 Gb, with N50 size of 31.1 kbp. Comparative analysis confirmed the presence of single, previously described gT insertion. No evidence was acquired to support idea of multiple T-DNA insertions in the N. glauca genome. Our data is the first comprehensive de novo assembly of tree tobacco and provide valuable information for researches in pharmacological and in phylogenetic fields. [ABSTRACT FROM AUTHOR]

Published

2018

20. The complete mitochondrial genome of the parthenogenetic Caucasian rock lizard Darevskia unisexualis ( Squamata : lacertidae ) contains long tandem repeat formed by 59 bp monomer.

Author

Komissarov, Aleksey, Korchagin, Vitaly, Kliver, Sergei, Dobrynin, Pavel, Semyenova, Serafima, Vergun, Andrey, O'Brien, Stephen, and Ryskov, Alexey

Subjects

SQUAMATA, MITOCHONDRIAL DNA, REPTILES, REPTILE phylogeny, TANDEM repeats, TRANSFER RNA, RIBOSOMAL RNA

Abstract

The first complete mitochondrial genome sequence of parthenogenetic Caucasian rock lizardDarevskia unisexualis (Lacertidaefamily) is determined by hybrid assembly with Illumina HiSeq and PacBio RS II platforms. The circular 21.4 kbp mitogenome contains 13 protein-coding genes, 12S and 16S rRNA genes, 20 tRNAs, two pseudogenized tRNAs, and one long tandem repeats with 4.1 kbp length formed by 59 bp monomer repeated x70.6 times located before control region. This finding represents a new example of mitogenome variation in lizards of hybrid origin, providing fundamental data for following study of a unique hybridization system formed by parthenogenetic and bisexual species in the mountain steppe of central Armenia. [ABSTRACT FROM PUBLISHER]

Published

2016

21. Genome-wide Mycobacterium tuberculosis variation (GMTV) database: a new tool for integrating sequence variations and epidemiology.

Author

Chernyaeva, Ekaterina N., Shulgina, Marina V., Rotkevich, Mikhail S., Dobrynin, Pavel V., Simonov, Serguei A., Shitikov, Egor A., Ischenko, Dmitry S., Karpova, Irina Y., Kostryukova, Elena S., Ilina, Elena N., Govorun, Vadim M., Zhuravlev, Vyacheslav Y., Manicheva, Olga A., Yablonsky, Peter K., Isaeva, Yulia D., Nosova, Elena Y., Mokrousov, Igor V., Vyazovaya, Anna A., Narvskaya, Olga V., and Lapidus, Alla L.

Subjects

MYCOBACTERIUM tuberculosis, HIV, TUBERCULOSIS research, DRUG resistance, EPIDEMIOLOGY, MOLECULAR biology

Abstract

Background Tuberculosis (TB) poses a worldwide threat due to advancing multidrug-resistant strains and deadly co-infections with Human immunodeficiency virus. Today large amounts of Mycobacterium tuberculosis whole genome sequencing data are being assessed broadly and yet there exists no comprehensive online resource that connects M. tuberculosis genome variants with geographic origin, with drug resistance or with clinical outcome. Description Here we describe a broadly inclusive unifying Genome-wide Mycobacterium tuberculosis Variation (GMTV) database, (http://mtb.dobzhanskycenter.org) that catalogues genome variations of M. tuberculosis strains collected across Russia. GMTV contains a broad spectrum of data derived from different sources and related to M. tuberculosis molecular biology, epidemiology, TB clinical outcome, year and place of isolation, drug resistance profiles and displays the variants across the genome using a dedicated genome browser. GMTV database, which includes 1084 genomes and over 69,000 SNP or Indel variants, can be queried about M. tuberculosis genome variation and putative associations with drug resistance, geographical origin, and clinical stages and outcomes. Conclusions Implementation of GMTV tracks the pattern of changes of M. tuberculosis strains in different geographical areas, facilitates disease gene discoveries associated with drug resistance or different clinical sequelae, and automates comparative genomic analyses among M. tuberculosis strains. [ABSTRACT FROM AUTHOR]

Published

2014

22. The Novelty of Human Cancer/Testis Antigen Encoding Genes in Evolution.

Author

Dobrynin, Pavel, Matyunina, Ekaterina, Malov, S. V., and Kozlov, A. P.

Subjects

*GENOMICS, *TESTICULAR cancer, *GERM cells, *GENE families, *HOMOLOGY (Biology), *BIOLOGICAL evolution, *GENETICS

Abstract

In order to be inherited in progeny generations, novel genes should originate in germcells. Here, we suggest that the testesmay play a special "catalyst" role in the birth and evolution of new genes. Cancer/testis antigen encoding genes (CT genes) are predominantly expressed both in testes and in a variety of tumors. By the criteria of evolutionary novelty, the CT genes are, indeed, novel genes. We performed homology searches for sequences similar to human CT in various animals and established thatmost of the CT genes are either found in humans only or are relatively recent in their origin. A majority of all human CT genes originated during or after the origin of Eutheria. These results suggest relatively recent origin of human CT genes and align with the hypothesis of the special role of the testes in the evolution of the gene families. [ABSTRACT FROM AUTHOR]

Published

2013

23. Response to Comment by Faurby, Werdelin and Svenning.

Author

O'Brien, Stephen J., Koepfli, Klaus Peter, Eizirik, Eduardo, Johnson, Warren, Driscoll, Carlos, Antunes, Agostinho, Schmidt-Kuntze, Anne, Marker, Laurie, and Dobrynin, Pavel

Published

2016

24. GADMA: Genetic algorithm for inferring demographic history of multiple populations from allele frequency spectrum data.

Author

Noskova, Ekaterina, Ulyantsev, Vladimir, Koepfli, Klaus-Peter, O'Brien, Stephen J, and Dobrynin, Pavel

Subjects

GENE frequency, FREQUENCY spectra, ORDINARY differential equations

Abstract

Background The demographic history of any population is imprinted in the genomes of the individuals that make up the population. One of the most popular and convenient representations of genetic information is the allele frequency spectrum (AFS), the distribution of allele frequencies in populations. The joint AFS is commonly used to reconstruct the demographic history of multiple populations, and several methods based on diffusion approximation (e.g., ∂a∂i) and ordinary differential equations (e.g., moments) have been developed and applied for demographic inference. These methods provide an opportunity to simulate AFS under a variety of researcher-specified demographic models and to estimate the best model and associated parameters using likelihood-based local optimizations. However, there are no known algorithms to perform global searches of demographic models with a given AFS. Results Here, we introduce a new method that implements a global search using a genetic algorithm for the automatic and unsupervised inference of demographic history from joint AFS data. Our method is implemented in the software GADMA (Genetic Algorithm for Demographic Model Analysis, https://github.com/ctlab/GADMA). Conclusions We demonstrate the performance of GADMA by applying it to sequence data from humans and non-model organisms and show that it is able to automatically infer a demographic model close to or even better than the one that was previously obtained manually. Moreover, GADMA is able to infer multiple demographic models at different local optima close to the global one, providing a larger set of possible scenarios to further explore demographic history. [ABSTRACT FROM AUTHOR]

Published

2020

25. Innovative assembly strategy contributes to understanding the evolution and conservation genetics of the endangered Solenodon paradoxus from the island of Hispaniola.

Author

Grigorev, Kirill, Kliver, Sergey, Dobrynin, Pavel, Komissarov, Aleksey, Wolfsberger, Walter, Krasheninnikova, Ksenia, Afanador-Hernández, Yashira M, Brandt, Adam L, Paulino, Liz A, and Carreras, Rosanna

Subjects

SOLENODON, MICROSATELLITE repeats

Abstract

Solenodons are insectivores that live in Hispaniola and Cuba. They form an isolated branch in the tree of placental mammals that are highly divergent from other eulipothyplan insectivores The history, unique biology, and adaptations of these enigmatic venomous species could be illuminated by the availability of genome data. However, a whole genome assembly for solenodons has not been previously performed, partially due to the difficulty in obtaining samples from the field. Island isolation and reduced numbers have likely resulted in high homozygosity within the Hispaniolan solenodon (Solenodon paradoxus). Thus, we tested the performance of several assembly strategies on the genome of this genetically impoverished species. The string graph–based assembly strategy seemed a better choice compared to the conventional de Bruijn graph approach due to the high levels of homozygosity, which is often a hallmark of endemic or endangered species. A consensus reference genome was assembled from sequences of 5 individuals from the southern subspecies (S. p. woodi). In addition, we obtained an additional sequence from 1 sample of the northern subspecies (S. p. paradoxus). The resulting genome assemblies were compared to each other and annotated for genes, with an emphasis on venom genes, repeats, variable microsatellite loci, and other genomic variants. Phylogenetic positioning and selection signatures were inferred based on 4,416 single-copy orthologs from 10 other mammals. We estimated that solenodons diverged from other extant mammals 73.6 million years ago. Patterns of single-nucleotide polymorphism variation allowed us to infer population demography, which supported a subspecies split within the Hispaniolan solenodon at least 300 thousand years ago. [ABSTRACT FROM AUTHOR]

Published

2018

26. Developmental dynamics of the epigenome: A longitudinal study of three toddlers.

Author

Naumova, Oxana Yu., Dozier, Mary, Dobrynin, Pavel V., Grigorev, Kirill, Wallin, Allison, Jeltova, Ida, Lee, Maria, Raefski, Adam, and Grigorenko, Elena L.

Subjects

*EPIGENETICS, *DNA methylation, *HUMAN Development Index, *GENES, *GENOMES

Abstract

Epigenetic regulation plays an important role in development, at the embryonic stages and later during the lifespan. Some epigenetic marks are highly conserved throughout the lifespan whereas others are closely associated with specific age periods and/or particular environmental factors. Little is known about the dynamics of epigenetic regulation during childhood, especially during the period of rapid early development. Our study was aimed to determine whether the developmental program at the early stages of human development is accompanied by significant changes in the systems of genome regulation, specifically, by genome-wide changes in DNA methylation. Using a sequencing approach (MBD-seq) we investigated genome-wide DNA methylation patterns in the T-lymphocytes of three healthy toddlers at two timepoints within the second year of life. Pairwise comparison of the methylation patterns across the individuals and time points was conducted to determine common longitudinal changes in the DNA methylation patterns. Despite relatively high interindividual variability in their epigenetic profiles and the dynamics of these profiles during the second year of life, all children showed consistent changes in the DNA methylation patterns of genes involved in the control of the immune system and genes related to the development of the CNS. Thereby, we provide evidence that early development might be accompanied by epigenetic changes in specific functional groups of genes; many such epigenetic changes appear to be related to the rapid development of the CNS. [ABSTRACT FROM AUTHOR]

Published

2018

27. 141 Gene Discovery and Data Sharing in Genome Wide Association Analyses.

Author

O'Brien, Stephen J, Svitin, Anton, Malov, Sergey, Cherkazov, Nikolay, Dobrynin, Pavel, Geerts, Paul, Troyer, Jennifer, Hendrickson-Lambert, Sher, Sezgin, Efe, and Hutcheson, Holli

Published

2014

28. Genome-wide sequence analyses of ethnic populations across Russia.

Author

Zhernakova, Daria V., Brukhin, Vladimir, Malov, Sergey, Oleksyk, Taras K., Koepfli, Klaus Peter, Zhuk, Anna, Dobrynin, Pavel, Kliver, Sergei, Cherkasov, Nikolay, Tamazian, Gaik, Rotkevich, Mikhail, Krasheninnikova, Ksenia, Evsyukov, Igor, Sidorov, Sviatoslav, Gorbunova, Anna, Chernyaeva, Ekaterina, Shevchenko, Andrey, Kolchanova, Sofia, Komissarov, Alexei, and Simonov, Serguei

Subjects

*SEQUENCE analysis, *GENETIC databases, *POPULATION genetics, *MEDICAL genetics, *GENE frequency, *NUCLEOTIDE sequencing

Abstract

The Russian Federation is the largest and one of the most ethnically diverse countries in the world, however no centralized reference database of genetic variation exists to date. Such data are crucial for medical genetics and essential for studying population history. The Genome Russia Project aims at filling this gap by performing whole genome sequencing and analysis of peoples of the Russian Federation. Here we report the characterization of genome-wide variation of 264 healthy adults, including 60 newly sequenced samples. People of Russia carry known and novel genetic variants of adaptive, clinical and functional consequence that in many cases show allele frequency divergence from neighboring populations. Population genetics analyses revealed six phylogeographic partitions among indigenous ethnicities corresponding to their geographic locales. This study presents a characterization of population-specific genomic variation in Russia with results important for medical genetics and for understanding the dynamic population history of the world's largest country. [ABSTRACT FROM AUTHOR]

Published

2020

29. Whole Genome Sequencing and Re-sequencing of the Sable Antelope (Hippotragus niger): A Resource for Monitoring Diversity in ex Situ and in Situ Populations.

Author

Koepfli, Klaus-Peter, Tamazian, Gaik, Wildt, David, Dobrynin, Pavel, Changhoon Kim, Frandsen, Paul B., Godinho, Raquel, Yurchenko, Andrey A., Komissarov, Aleksey, Krasheninnikova, Ksenia, Kliver, Sergei, Kolchanova, Sofia, Gonçalves, Margarida, Carneiro, Miguel, Pinto, Pedro Vaz, Ferrand, Nuno, Maldonado, Jesús E., Ferrie, Gina M., Chemnick, Leona, and Ryder, Oliver A.

Subjects

*ANTELOPES, *NUCLEOTIDE sequencing, *WILDLIFE conservation, *ENDANGERED species, *BOVIDAE, *INBREEDING, *BIRD populations

Abstract

Genome-wide assessment of genetic diversity has the potential to increase the ability to understand admixture, inbreeding, kinship and erosion of genetic diversity affecting both captive (ex situ) and wild (in situ) populations of threatened species. The sable antelope (Hippotragus niger), native to the savannah woodlands of sub-Saharan Africa, is a species that is being managed ex situ in both public (zoo) and private (ranch) collections in the United States. Our objective was to develop whole genome sequence resources that will serve as a foundation for characterizing the genetic status of ex situ populations of sable antelope relative to populations in the wild. Here we report the draft genome assembly of a male sable antelope, a member of the subfamily Hippotraginae (Bovidae, Cetartiodactyla, Mammalia). The 2.596 Gb draft genome consists of 136,528 contigs with an N50 of 45.5 Kbp and 16,927 scaffolds with an N50 of 4.59 Mbp. De novo annotation identified 18,828 protein-coding genes and repetitive sequences encompassing 46.97% of the genome. The discovery of single nucleotide variants (SNVs) was assisted by the re-sequencing of seven additional captive and wild individuals, representing two different subspecies, leading to the identification of 1,987,710 bi-allelic SNVs. Assembly of the mitochondrial genomes revealed that each individual was defined by a unique haplotype and these data were used to infer the mitochondrial gene tree relative to other hippotragine species. The sable antelope genome constitutes a valuable resource for assessing genome-wide diversity and evolutionary potential, thereby facilitating long-term conservation of this charismatic species. [ABSTRACT FROM AUTHOR]

Published

2019

30. Genome-wide Evidence Reveals that African and Eurasian Golden Jackals Are Distinct Species.

Author

Koepfli, Klaus-Peter, Pollinger, John, Godinho, Raquel, Robinson, Jacqueline, Lea, Amanda, Hendricks, Sarah, Schweizer, Rena M., Thalmann, Olaf, Silva, Pedro, Fan, Zhenxin, Yurchenko, Andrey A., Dobrynin, Pavel, Makunin, Alexey, Cahill, James A., Shapiro, Beth, Álvares, Francisco, Brito, José C., Geffen, Eli, Leonard, Jennifer A., and Helgen, Kristofer M.

Subjects

*CANIS aureus, *CLASSIFICATION of mammals, *MAMMAL populations, *HAPLOTYPES, *MITOCHONDRIAL pathology, *MAMMAL evolution

Abstract

Summary The golden jackal of Africa ( Canis aureus ) has long been considered a conspecific of jackals distributed throughout Eurasia, with the nearest source populations in the Middle East. However, two recent reports found that mitochondrial haplotypes of some African golden jackals aligned more closely to gray wolves ( Canis lupus ) [ 1, 2 ], which is surprising given the absence of gray wolves in Africa and the phenotypic divergence between the two species. Moreover, these results imply the existence of a previously unrecognized phylogenetically distinct species despite a long history of taxonomic work on African canids. To test the distinct-species hypothesis and understand the evolutionary history that would account for this puzzling result, we analyzed extensive genomic data including mitochondrial genome sequences, sequences from 20 autosomal loci (17 introns and 3 exon segments), microsatellite loci, X- and Y-linked zinc-finger protein gene ( ZFX and ZFY ) sequences, and whole-genome nuclear sequences in African and Eurasian golden jackals and gray wolves. Our results provide consistent and robust evidence that populations of golden jackals from Africa and Eurasia represent distinct monophyletic lineages separated for more than one million years, sufficient to merit formal recognition as different species: C. anthus (African golden wolf) and C. aureus (Eurasian golden jackal). Using morphologic data, we demonstrate a striking morphologic similarity between East African and Eurasian golden jackals, suggesting parallelism, which may have misled taxonomists and likely reflects uniquely intense interspecific competition in the East African carnivore guild. Our study shows how ecology can confound taxonomy if interspecific competition constrains size diversification. [ABSTRACT FROM AUTHOR]

Published

2015

31. Whole-genome analysis of giraffe supports four distinct species.

Author

Coimbra, Raphael T.F., Winter, Sven, Kumar, Vikas, Koepfli, Klaus-Peter, Gooley, Rebecca M., Dobrynin, Pavel, Fennessy, Julian, and Janke, Axel

Subjects

*GIRAFFES, *WILDLIFE conservation, *NUMBERS of species, *SPECIES, *GENOMICS, *BIODIVERSITY, *GENE flow

Abstract

Species is the fundamental taxonomic unit in biology and its delimitation has implications for conservation. In giraffe (Giraffa spp.), multiple taxonomic classifications have been proposed since the early 1900s. 1 However, one species with nine subspecies has been generally accepted, 2 likely due to limited in-depth assessments, subspecies hybridizing in captivity, 3,4 and anecdotal reports of hybrids in the wild. 5 Giraffe taxonomy received new attention after population genetic studies using traditional genetic markers suggested at least four species. 6,7 This view has been met with controversy, 8 setting the stage for debate. 9,10 Genomics is significantly enhancing our understanding of biodiversity and speciation relative to traditional genetic approaches and thus has important implications for species delineation and conservation. 11 We present a high-quality de novo genome assembly of the critically endangered Kordofan giraffe (G. camelopardalis antiquorum) 12 and a comprehensive whole-genome analysis of 50 giraffe representing all traditionally recognized subspecies. Population structure and phylogenomic analyses support four separately evolving giraffe lineages, which diverged 230–370 ka ago. These lineages underwent distinct demographic histories and show different levels of heterozygosity and inbreeding. Our results strengthen previous findings of limited gene flow and admixture among putative giraffe species 6,7,9 and establish a genomic foundation for recognizing four species and seven subspecies, the latter of which should be considered as evolutionary significant units. Achieving a consensus over the number of species and subspecies in giraffe is essential for adequately assessing their threat level and will improve conservation efforts for these iconic taxa. [Display omitted] • Comprehensive whole-genome analysis of 50 individuals from all giraffe subspecies • Results show four separate giraffe lineages with distinct demographic histories • Luangwa giraffe should be treated as its own separate subspecies of Masai giraffe • Chromium de novo genome assembly of the critically endangered Kordofan giraffe Coimbra et al.'s assessment on giraffe taxonomy uses genome data from all traditionally recognized subspecies. Population genomic and phylogenomic analyses support four separately evolving giraffe lineages that underwent distinct demographic histories. Their current genomic diversity will inform targeted conservation efforts for these iconic taxa. [ABSTRACT FROM AUTHOR]

Published

2021