Project description:Paleogenomics clarifies the hybridization origin of the extinct Japanese wolf between modern and ancient divergent lineages

Project description:Hispanic/Latino populations possess a complex genetic structure that reflects recent admixture among and potentially ancient substructure within Native American, European, and West African source populations. Here, we quantify genome-wide patterns of SNP and haplotype variation among 100 individuals with ancestry from Ecuador, Colombia, Puerto Rico, and the Dominican Republic genotyped using Illumina technology.

Project description:Uncovering the genomic signature of ancient introgression between white oak lineages (Quercus)

Project description:Trypanosoma brucei, a member of the Excavates supergroup, falls in an evolutionarily ancient branch of eukaryotes. We have mapped nucleosome positions in T. brucei and identified a map that differs from that of other eukaryotes in several important ways. Unlike in other eukaryotes, the RNA polymerase II initiation regions in T. brucei do not exhibit pronounced nucleosome depletion, and show little evidence for defined -1 and +1 nucleosomes. In contrast, a well-positioned nucleosome is present directly on the splice acceptor sites within the polycistronic transcription units. The RNA polyadenylation sites were depleted of nucleosomes, with a single well-positioned nucleosome present immediately downstream of the predicted sites. The regions flanking the silent Variant Surface Glycoprotein (VSG) gene arrays showed extensive arrays of well-positioned nucleosomes, which may act to repress cryptic transcription initiation. The silent VSG genes themselves exhibited a less regular nucleosomal pattern in both bloodstream and procyclic form trypanosomes. The DNA replication origins, when present within arrays of silent VSG genes, displayed a defined nucleosomal organization compared with replication origins in other chromosomal core regions. Our results indicate that some organizational features of chromatin are evolutionarily ancient, and may already have been present in the last eukaryotic common ancestor.

Project description:Despite the discovery of Mycobacterium tuberculosis (Mtb) more than 130 years ago, Mtb physiology and the mechanisms of virulence are still not fully understood. The objective of this study was to compare and characterize the differentially abundant protein profiles of modern, pre-modern and ancient Mtb lineages. Using a comprehensive analysis of the proteome of Mtb lineages 3, 4, 5 and 7, unique and shared proteomic signatures in these modern, pre-modern and ancient Mtb lineages were delineated. Main proteomic findings were verified by using immunoblotting. In addition, analysis of multiple genome alignment of all lineages was performed using Geneious Prime software. Label-free peptide quantification of whole cells from Mtb lineage 3, 4, 5 and 7 yielded 38,346 unique peptides derived from 3092 proteins, representing 77% coverage of the predicted Mtb proteome. Mtb lineage-specific differential abundances was observed for 539 proteins. Lineage 7 exhibited a markedly reduced abundance of proteins involved in DNA repair, type VII ESX-3 and ESX-1 secretion systems, lipid metabolism and inorganic phosphate uptake, and an increased abundance of proteins involved in alternative pathways of the TCA cycle and the CRISPR/Cas system as compared to the other lineages. Lineages 3 and 4 exhibited a higher abundance of proteins involved in virulence, DNA repair, drug resistance and other metabolic pathways. The high throughput analysis of Mtb proteome by super resolution massspectrometry provided an insight into the differential expression of proteins between Mtb lineages 3, 4, 5 and 7 that may explain the slow growth and reduced virulence of lineage 7, as well as metabolic flexibility and the ability to survive under adverse growth conditions.

Project description:Genome wide localization of Kumgang, dMi-2, and Aly in Drosophila melanogaster testes were evaluated by ChIP-Seq in wild-type and kmg knock down testes. / Title: Blocking promiscuous activation at cryptic promoters directs cell type–specific gene expression / Abstract: To selectively express cell type–specific transcripts during development, it is critical to maintain genes required for other lineages in a silent state. Here, we show in the Drosophila male germline stem cell lineage that a spermatocyte-specific zinc finger protein, Kumgang (Kmg), working with the chromatin remodeler dMi-2 prevents transcription of genes normally expressed only in somatic lineages. By blocking transcription from normally cryptic promoters, Kmg restricts activation by Aly, a component of the testis-meiotic arrest complex, to transcripts for male germ cell differentiation. Our results suggest that as new regions of the genome become open for transcription during terminal differentiation, blocking the action of a promiscuous activator on cryptic promoters is a critical mechanism for specifying precise gene activation.

Project description:Extensive conservation of ancient microsynteny across metazoans

Project description:There is extensive variation in DNA methylation between individuals and ethnic groups. These differences can arise from a combination of genetic and non-genetic influences and potential modifiers include nutritional cues, early life experience, and social and physical environments. Here we have assayed genome-wide DNA methylation in neonatal cord blood from African American, European American, and other ancestral groups. This is part of the CANDLE Study (Conditions Affecting Neurocognitive Development and Learning in Early Childhood). Our overarching goal is to determine the different environmental and maternal factors that can modify DNA methylation in newborns.

Project description:Zika virus (ZIKV) is a mosquito-transmitted positive-sense RNA virus in the family Flaviviridae. ZIKV infections are associated with neurodevelopmental deficiencies termed Congenital Zika Syndrome. ZIKV strains are grouped into three phylogenetic lineages: East African, West African, and Asian, which contains the American lineage. RNA virus genomes exist as genetically-related sequences. The heterogeneity of these viral populations is implicated in viral fitness, and genome diversity is correlated to virulence. This study examines genetic diversity of representative ZIKV strains from all lineages utilizing next generation sequencing (NGS). Inter-lineage diversity results indicate that ZIKV lineages differ broadly from each other; however, intra-lineage comparisons of American ZIKV strains isolated from human serum or placenta show differences in diversity when compared to ZIKVs from Asia and West Africa. This study describes the first comprehensive NGS analysis of all ZIKV lineages and posits that sub-consensus-level diversity may provide a framework for understanding ZIKV fitness during infection.

Project description:Spotted hyena (Crocuta crocuta) is the only extant species of the genus Crocuta, which once occupied a much wider range during the Pliocene and Pleistocene. However, its origin and evolutionary history is somewhat contentious due to discordances being found between morphological, nuclear, and mitochondrial data. Due to the limited molecular data from east Asian Crocuta, and the difficulty of extracting ancient DNA from this area, here we present proteomic analysis of cave hyenas from three locations in northern China. This marks the first proteomic data generated from cave hyenas, adding new molecular data to the east Asian populations. Phylogenetic analysis based on these protein sequences reveals two different groups of cave hyenas in east Asia, one of which could not be distinguished from modern spotted hyenas from northern Africa, tentatively the result of previously suggested gene flow between these lineages. With developments of instrumentation and analytical methods, proteomics holds promising potential for the phylogenetic reconstruction of ancient fauna previously thought to be unreachable using ancient DNA.