Transferable measurements of heredity in models of the origins of life

We propose a metric which can be used to compute the amount of heritable variation enabled by a given dynamical system. A distribution of selection pressures is used such that each pressure selects a particular fixed point via competitive exclusion in order to determine the corresponding distribution of potential fixed points in the population dynamics. This metric accurately detects the number of species present in artificially prepared test systems, and furthermore can correctly determine the number of heritable sets in clustered transition matrix models in which there are no clearly defined genomes. Finally, we apply our metric to the GARD model and show that it accurately reproduces prior measurements of the model's heritability.Comment: 12 pages, 7 figure

An Erythropoietin-Independent Mechanism of Erythrocytic Precursor Proliferation Underlies Hypoxia Tolerance in Sea Nomads

The Bajau Sea Nomads were recently demonstrated to have evolved larger spleens as an adaptation to millennia of a marine foraging lifestyle. The large-spleen phenotype appears to derive from increases in thyroid hormone (TH) production as a result of reduced expression of phosphodiesterase 10A (PDE10A), though the exact mechanism remains unknown. Through pharmacological inhibition of PDE10A using the selective inhibitor MP-10 in mice, we were able to mimic the Bajau adaptation and show that treated mice had significantly larger spleens than control animals. This difference appears connected to an excess of early stage erythrocytes and an apparent increase in red blood cell (RBC) precursor proliferation in response to increased TH. However, we determined that the stimulation of RBC production in the mouse model via TH is Erythropoietin (EPO)-independent, unlike in the altitude (chronic hypoxemia) response. We confirmed this using human GWAS data; although the Bajau PDE10A variants are significantly associated with increased TH levels and RBC count, they are not associated with EPO levels, nor are other strongly thyroid-associated SNPs. We therefore suggest that an EPO-independent mechanism of stimulating RBC precursor proliferation via TH upregulation underlies the increase in spleen size observed in Sea Nomad populations

Ancient Biomolecules and Evolutionary Inference

Over the past three decades, studies of ancient biomolecules—particularly ancient DNA, proteins, and lipids—have revolutionized our understand- ing of evolutionary history. Though initially fraught with many challenges, today the field stands on firm foundations. Researchers now successfully retrieve nucleotide and amino acid sequences, as well as lipid signatures, from progressively older samples, originating from geographic areas and depositional environments that, until recently, were regarded as hostile to long-term preservation of biomolecules. Sampling frequencies and the spa- tial and temporal scope of studies have also increased markedly, and with them the size and quality of the data sets generated. This progress has been made possible by continuous technical innovations in analytical methods, enhanced criteria for the selection of ancient samples, integrated experimental methods, and advanced computational approaches. Here, we discuss the history and current state of ancient biomolecule research, its applications to evolutionary inference, and future directions for this young and exciting field

The first horse herders and the impact of early Bronze Age steppe expansions into Asia.

The Yamnaya expansions from the western steppe into Europe and Asia during the Early Bronze Age (~3000 BCE) are believed to have brought with them Indo-European languages and possibly horse husbandry. We analyzed 74 ancient whole-genome sequences from across Inner Asia and Anatolia and show that the Botai people associated with the earliest horse husbandry derived from a hunter-gatherer population deeply diverged from the Yamnaya. Our results also suggest distinct migrations bringing West Eurasian ancestry into South Asia before and after, but not at the time of, Yamnaya culture. We find no evidence of steppe ancestry in Bronze Age Anatolia from when Indo-European languages are attested there. Thus, in contrast to Europe, Early Bronze Age Yamnaya-related migrations had limited direct genetic impact in Asia

Natural selection and the genetically encoded amino acid alphabet

M.S. University of Hawaii at Manoa 2013.Includes bibliographical references.Current science has advanced far beyond Crick's 'frozen accident' interpretation of the origin of the standard genetic code. Codon assignments can and do change, and new amino acids can be added to the code. Combined with the simple observation that the complex molecular machinery responsible for the standard code is a product of considerable evolution, it becomes legitimate and important to ask what else explains how and why one particular genetic code emerged within LUCA that still dominates the staggering diversity of life on our planet. Put another way, once we recognize the code as an evolvable phenomenon, we can ask what evolutionary forces shaped the emergence of the particular codon assignments found within the standard genetic code. Biological thinking has coalesced around three major ideas: the Adaptive Hypothesis, the Stereochemical Hypothesis, and the Biosynthetic or Co-Evolutionary Hypothesis. Assessing the validity of all three theories (and any further estimation of their relative contributions) depends upon further investigations of two fundamental assumptions. These assumptions relate to the two previously mentioned chemical languages between which the genetic code acts as an interface: nucleotides and amino acids. A plethora of nucleotides and amino acids formed through biotic and abiotic processes were available in abundance during the earliest stages of life's evolution, as will be addressed in detail in Chapter 2. For the purpose of concluding this review of ideas regarding the evolution of the standard genetic code, what matters is to notice that any estimates made as to the relative importance of the theories described in this chapter build from the assumption of four nucleotides to encode twenty amino acids