Evrim Fer scite author profile

Variable kinship patterns in Neolithic Anatolia revealed by ancient genomes Highlights d Genetic kinship estimated from co-buried individuals' genomes in Neolithic Anatolia d Close relatives are common among co-burials in As xıklı and Boncuklu d Many unrelated infants found buried in the same building in Ç atalhö yü k and Barcın d Neolithic societies in Southwest Asia may have held diverse concepts of kinship

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Variation and Functional Impact of Neanderthal Ancestry in Western Asia

Taşkent¹,

Alioglu

Fer

et al. 2017

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Neanderthals contributed genetic material to modern humans via multiple admixture events. Initial admixture events presumably occurred in Western Asia shortly after humans migrated out of Africa. Despite being a focal point of admixture, earlier studies indicate lower Neanderthal introgression rates in some Western Asian populations as compared with other Eurasian populations. To better understand the genome-wide and phenotypic impact of Neanderthal introgression in the region, we sequenced whole genomes of nine present-day Europeans, Africans, and the Western Asian Druze at high depth, and analyzed available whole genome data from various other populations, including 16 genomes from present-day Turkey. Our results confirmed previous observations that contemporary Western Asian populations, on an average, have lower levels of Neanderthal-introgressed DNA relative to other Eurasian populations. Modern Western Asians also show comparatively high variability in Neanderthal ancestry, which may be attributed to the complex demographic history of the region. We further replicated the previously described depletion of putatively functional sequences among Neanderthal-introgressed haplotypes. Still, we find dozens of common Neanderthal-introgressed haplotypes in the Turkish sample associated with human phenotypes, including anthropometric and metabolic traits, as well as the immune response. One of these haplotypes is unusually long and harbors variants that affect the expression of members of the CCR gene family and are associated with celiac disease. Overall, our results paint a complex first picture of the genomic impact of Neanderthal introgression in the Western Asian populations.

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Early divergence of translation initiation and elongation factors

et al. 2022

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Protein translation is a foundational attribute of all living cells. The translation function carried out by the ribosome critically depends on an assortment of protein interaction partners, collectively referred to as the translation machinery. Various studies suggest that the diversification of the translation machinery occurred prior to the last universal common ancestor, yet it is unclear whether the predecessors of the extant translation machinery factors were functionally distinct from their modern counterparts. Here we reconstructed the shared ancestral trajectory and subsequent evolution of essential translation factor GTPases, elongation factor EF-Tu (aEF-1A/eEF-1A), and initiation factor IF2 (aIF5B/eIF5B). Based upon their similar functions and structural homologies, it has been proposed that EF-Tu and IF2 emerged from an ancient common ancestor. We generated the phylogenetic tree of IF2 and EF-Tu proteins and reconstructed ancestral sequences corresponding to the deepest nodes in their shared evolutionary history, including the last common IF2 and EF-Tu ancestor. By identifying the residue and domain substitutions, as well as structural changes along the phylogenetic history, we developed an evolutionary scenario for the origins, divergence and functional refinement of EF-Tu and IF2 proteins. Our analyses suggest that the common ancestor of IF2 and EF-Tu was an IF2-like GTPase protein. Given the central importance of the translation machinery to all cellular life, its earliest evolutionary constraints and trajectories are key to characterizing the universal constraints and capabilities of cellular evolution.

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Comparison of SARS-CoV-2 variants with INSaFLU and galaxyproject

Utkueri¹,

Fer²,

Bozlak³

et al. 2020

Preprint

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Development of workflows for NGS data analysis have facilitated the study of sequences. Such workflows have their own advantages and challenges based on the algorithms they use. As a part of this study for Biohackathon 2020, we have compared the SARS-CoV-2 variant outputs of INSaFLU workflow with those analyzed by galaxyproject/SARS-CoV-2. Within 24 samples, 597 variants were found to be shared between two workflows, with almost half of them found within the coding sequence of replicase polyprotein 1ab. Within the shared variants, number of non-synonymous variants were considerably higher and nearly half of the variants were multiallelic. Prospective studies could help us evaluate the accuracy of these variants.

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Earliest Photic Zone Niches Probed by Ancestral Microbial Rhodopsins

Sephus

Fer

Garcia

et al. 2022

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For billions of years, life has continuously adapted to dynamic physical conditions near the Earth’s surface. Fossils and other preserved biosignatures in the paleontological record are the most direct evidence for reconstructing the broad historical contours of this adaptive interplay. However, biosignatures dating to Earth’s earliest history are exceedingly rare. Here, we combine phylogenetic inference of primordial rhodopsin proteins with modeled spectral features of the Precambrian Earth environment to reconstruct the paleobiological history of this essential family of photoactive transmembrane proteins. Our results suggest that ancestral microbial rhodopsins likely acted as light-driven proton pumps and were spectrally tuned toward the absorption of green light, which would have enabled their hosts to occupy depths in a water column or biofilm where UV wavelengths were attenuated. Subsequent diversification of rhodopsin functions and peak absorption frequencies was enabled by the expansion of surface ecological niches induced by the accumulation of atmospheric oxygen. Inferred ancestors retain distinct associations between extant functions and peak absorption frequencies. Our findings suggest that novel information encoded by biomolecules can be used as “paleosensors” for conditions of ancient, inhabited niches of host organisms not represented elsewhere in the paleontological record. The coupling of functional diversification and spectral tuning of this taxonomically diverse protein family underscores the utility of rhodopsins as universal testbeds for inferring remotely detectable biosignatures on inhabited planetary bodies.

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Evrim Fer

Variable kinship patterns in Neolithic Anatolia revealed by ancient genomes

Variation and Functional Impact of Neanderthal Ancestry in Western Asia

Early divergence of translation initiation and elongation factors

Comparison of SARS-CoV-2 variants with INSaFLU and galaxyproject

Earliest Photic Zone Niches Probed by Ancestral Microbial Rhodopsins

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