Evolution: medicine’s most basic science

Evolution: Medicine’s most basic science

Oxford Textbook of Medicine ◽

10.1093/med/9780198746690.003.0008 ◽

2020 ◽

pp. 39-42

Author(s):

Randolph M. Nesse ◽

Richard Dawkins

Keyword(s):

Population Genetics ◽

Natural Selection ◽

Basic Science ◽

Evolutionary Biology ◽

Phylogenetic Trees ◽

The Body ◽

Clinical Implications ◽

Trade Offs ◽

The Cost

The role of evolutionary biology as a basic science for medicine is expanding rapidly. Some evolutionary methods are already widely applied in medicine, such as population genetics and methods for analysing phylogenetic trees. Newer applications come from seeking evolutionary as well as proximate explanations for disease. Traditional medical research is restricted to proximate studies of the body’s mechanism, but separate evolutionary explanations are needed for why natural selection has left many aspects of the body vulnerable to disease. There are six main possibilities: mismatch, infection, constraints, trade-offs, reproduction at the cost of health, and adaptive defences. Like other basic sciences, evolutionary biology has limited direct clinical implications, but it provides essential research methods, encourages asking new questions that foster a deeper understanding of disease, and provides a framework that organizes the facts of medicine.

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Darwin's two competing phylogenetic trees: marsupials as ancestors or sister taxa?

Archives of Natural History ◽

10.3366/anh.2012.0091 ◽

2012 ◽

Vol 39 (2) ◽

pp. 217-233 ◽

Cited By ~ 4

Author(s):

J. David Archibald

Keyword(s):

Fossil Record ◽

Evolutionary Biology ◽

Phylogenetic Trees ◽

Charles Darwin ◽

The Other ◽

Charles Lyell ◽

Single Origin ◽

Molecular Studies ◽

Richard Owen ◽

First Time

Studies of the origin and diversification of major groups of plants and animals are contentious topics in current evolutionary biology. This includes the study of the timing and relationships of the two major clades of extant mammals – marsupials and placentals. Molecular studies concerned with marsupial and placental origin and diversification can be at odds with the fossil record. Such studies are, however, not a recent phenomenon. Over 150 years ago Charles Darwin weighed two alternative views on the origin of marsupials and placentals. Less than a year after the publication of On the origin of species, Darwin outlined these in a letter to Charles Lyell dated 23 September 1860. The letter concluded with two competing phylogenetic diagrams. One showed marsupials as ancestral to both living marsupials and placentals, whereas the other showed a non-marsupial, non-placental as being ancestral to both living marsupials and placentals. These two diagrams are published here for the first time. These are the only such competing phylogenetic diagrams that Darwin is known to have produced. In addition to examining the question of mammalian origins in this letter and in other manuscript notes discussed here, Darwin confronted the broader issue as to whether major groups of animals had a single origin (monophyly) or were the result of “continuous creation” as advocated for some groups by Richard Owen. Charles Lyell had held similar views to those of Owen, but it is clear from correspondence with Darwin that he was beginning to accept the idea of monophyly of major groups.

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It Keeps Me Seeking

10.1093/oso/9780198808282.001.0001 ◽

2018 ◽

Author(s):

Andrew Briggs ◽

Hans Halvorson ◽

Andrew Steane

Keyword(s):

Evolutionary Biology ◽

Quantum Physics ◽

Natural World ◽

Theological Reflection ◽

Fine Tuning ◽

Good Argument ◽

The Difference ◽

Argument From Design ◽

Relationship Of

Two scientists and a philosopher aim to show how science both enriches and is enriched by Christian faith. The text is written around four themes: 1. God is a being to be known, not a hypothesis to be tested; 2. We set a high bar on what constitutes good argument; 3. Uncertainty is OK; 4. We are allowed to open up the window that the natural world offers us. This is not a work of apologetics. Rather, the text takes an overview of various themes and gives reactions and responses, intended to place science correctly as a valued component of the life of faith. The difference between philosophical analysis and theological reflection is expounded. Questions of human identity are addressed from philosophy, computer science, quantum physics, evolutionary biology and theological reflection. Contemporary physics reveals the subtle and open nature of physical existence, and offers lessons in how to learn and how to live with incomplete knowledge. The nature and role of miracles is considered. The ‘argument from design’ is critiqued, especially arguments from fine-tuning. Logical derivation from impersonal facts is not an appropriate route to a relationship of mutual trust. Mainstream evolutionary biology is assessed to be a valuable component of our understanding, but no exploratory process can itself fully account for the nature of what is discovered. To engage deeply in science is to seek truth and to seek a better future; it is also an activity of appreciation, as one may appreciate a work of art.

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A Primer of Population Genetics and Genomics

10.1093/oso/9780198862291.001.0001 ◽

2020 ◽

Author(s):

Daniel L. Hartl

Keyword(s):

Population Genetics ◽

Complex Traits ◽

Evolutionary Biology ◽

Knowledge Retention ◽

Learning By Doing ◽

Human Populations ◽

Gene Drive ◽

Molecular Population Genetics ◽

Genetics And Genomics ◽

And Mathematics

A Primer of Population Genetics and Genomics, 4th edition, has been completely revised and updated to provide a concise but comprehensive introduction to the basic concepts of population genetics and genomics. Recent textbooks have tended to focus on such specialized topics as the coalescent, molecular evolution, human population genetics, or genomics. This primer bucks that trend by encouraging a broader familiarity with, and understanding of, population genetics and genomics as a whole. The overview ranges from mating systems through the causes of evolution, molecular population genetics, and the genomics of complex traits. Interwoven are discussions of ancient DNA, gene drive, landscape genetics, identifying risk factors for complex diseases, the genomics of adaptation and speciation, and other active areas of research. The principles are illuminated by numerous examples from a wide variety of animals, plants, microbes, and human populations. The approach also emphasizes learning by doing, which in this case means solving numerical or conceptual problems. The rationale behind this is that the use of concepts in problem-solving lead to deeper understanding and longer knowledge retention. This accessible, introductory textbook is aimed principally at students of various levels and abilities (from senior undergraduate to postgraduate) as well as practising scientists in the fields of population genetics, ecology, evolutionary biology, computational biology, bioinformatics, biostatistics, physics, and mathematics.

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Limited Extended Inheritance

10.1093/oso/9780199377176.003.0009 ◽

2017 ◽

Author(s):

Francesca Merlin

Keyword(s):

Evolutionary Biology

This chapter addresses the question of the extension of biological inheritance in the light of the fact that organisms inherit much more than DNA. Starting from recent proposals to reconceive the concept of biological inheritance, the chapter shows that one of the main assumptions in the literature is simply taken for granted without providing any evidence or argument to support it. The chapter first analyzes four distinctions—and the lessons drawn from them—and then proposes a redefinition of inheritance, which brings to the fore its privileged link with reproduction and the specific theoretical role of this concept in evolutionary biology.

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Challenging the Modern Synthesis

10.1093/oso/9780199377176.001.0001 ◽

2017 ◽

Cited By ~ 18

Keyword(s):

21St Century ◽

Evolutionary Biology ◽

Modern Synthesis ◽

Early 20Th Century ◽

Theory Of Evolution ◽

Original Essays ◽

New Biology ◽

Conceptual Foundations ◽

Orthodox View

Since its origin in the early 20th century, the modern synthesis theory of evolution has grown to represent the orthodox view on the process of organic evolution. It is a powerful and successful theory. Its defining features include the prominence it accords to genes in the explanation of development and inheritance, and the role of natural selection as the cause of adaptation. Since the advent of the 21st century, however, the modern synthesis has been subject to repeated and sustained challenges. In the last two decades, evolutionary biology has witnessed unprecedented growth in the understanding of those processes that underwrite the development of organisms and the inheritance of characters. The empirical advances usher in challenges to the conceptual foundations of evolutionary theory. Many current commentators charge that the new biology of the 21st century calls for a revision, extension, or wholesale rejection of the modern synthesis theory of evolution. Defenders of the modern synthesis maintain that the theory can accommodate the exciting new advances in biology, without forfeiting its central precepts. The original essays collected in this volume—by evolutionary biologists, philosophers of science, and historians of biology—survey and assess the various challenges to the modern synthesis arising from the new biology of the 21st century. Taken together, the essays cover a spectrum of views, from those that contend that the modern synthesis can rise to the challenges of the new biology, with little or no revision required, to those that call for the abandonment of the modern synthesis.

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Inflammation and Atherosclerosis

Cells ◽

10.3390/cells10051197 ◽

2021 ◽

Vol 10 (5) ◽

pp. 1197

Author(s):

Klaus Ley

Keyword(s):

Clinical Trials ◽

Animal Models ◽

Basic Science ◽

Translational Science ◽

Special Issue

This 11-chapter Special Issue of Cells spans the gamut from basic science in mechanistic animal models to translational science to outcomes of clinical trials, all focused on the role of inflammation in atherosclerosis [...]

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Defining the niche for niche construction: evolutionary and ecological niches

Biology & Philosophy ◽

10.1007/s10539-021-09805-2 ◽

2021 ◽

Vol 36 (3) ◽

Author(s):

Rose Trappes

Keyword(s):

Evolutionary Biology ◽

Ecological Niche ◽

Niche Construction ◽

Habitat Degradation ◽

Ecological Niches ◽

Niche Concept ◽

Definition Of ◽

Compare And Contrast ◽

Extreme Habitat

AbstractNiche construction theory (NCT) aims to transform and unite evolutionary biology and ecology. Much of the debate about NCT has focused on construction. Less attention has been accorded to the niche: what is it, exactly, that organisms are constructing? In this paper I compare and contrast the definition of the niche used in NCT with ecological niche definitions. NCT’s concept of the evolutionary niche is defined as the sum of selection pressures affecting a population. So defined, the evolutionary niche is narrower than the ecological niche. Moreover, when contrasted with a more restricted ecological niche concept, it has a slightly different extension. I point out three kinds of cases in which the evolutionary niche does not coincide with realized ecological niches: extreme habitat degradation, commensalism, and non-limiting or super-abundant resources. These conceptual differences affect the role of NCT in unifying ecology and evolutionary biology.

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Evolutionary biology meets consciousness: essay review of Simona Ginsburg and Eva Jablonka’s The Evolution of the Sensitive Soul

Biology & Philosophy ◽

10.1007/s10539-021-09781-7 ◽

2021 ◽

Vol 36 (1) ◽

Author(s):

Heather Browning ◽

Walter Veit

Keyword(s):

Evolutionary Biology ◽

Subjective Experience ◽

Essay Review ◽

Critical Evaluation ◽

Evolution Of Consciousness ◽

Initial Resistance ◽

Metaphysical Claim ◽

Mode Of Being

AbstractIn this essay, we discuss Simona Ginsburg and Eva Jablonka’s The Evolution of the Sensitive Soul from an interdisciplinary perspective. Constituting perhaps the longest treatise on the evolution of consciousness, Ginsburg and Jablonka unite their expertise in neuroscience and biology to develop a beautifully Darwinian account of the dawning of subjective experience. Though it would be impossible to cover all its content in a short book review, here we provide a critical evaluation of their two key ideas—the role of Unlimited Associative Learning in the evolution of, and detection of, consciousness and a metaphysical claim about consciousness as a mode of being—in a manner that will hopefully overcome some of the initial resistance of potential readers to tackle a book of this length.

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The Cardamine hirsuta genome offers insight into the evolution of morphological diversity

Nature Plants ◽

10.1038/nplants.2016.167 ◽

2016 ◽

Vol 2 (11) ◽

Cited By ~ 46

Author(s):

Xiangchao Gan ◽

Angela Hay ◽

Michiel Kwantes ◽

Georg Haberer ◽

Asis Hallab ◽

...

Keyword(s):

Evolutionary Biology ◽

Human Genetics ◽

Morphological Evolution ◽

Morphological Diversity ◽

Close Relative ◽

Gene Duplications ◽

Tandem Gene Duplication ◽

Genome Wide ◽

Differential Gene

Abstract Finding causal relationships between genotypic and phenotypic variation is a key focus of evolutionary biology, human genetics and plant breeding. To identify genome-wide patterns underlying trait diversity, we assembled a high-quality reference genome of Cardamine hirsuta, a close relative of the model plant Arabidopsis thaliana. We combined comparative genome and transcriptome analyses with the experimental tools available in C. hirsuta to investigate gene function and phenotypic diversification. Our findings highlight the prevalent role of transcription factors and tandem gene duplications in morphological evolution. We identified a specific role for the transcriptional regulators PLETHORA5/7 in shaping leaf diversity and link tandem gene duplication with differential gene expression in the explosive seed pod of C. hirsuta. Our work highlights the value of comparative approaches in genetically tractable species to understand the genetic basis for evolutionary change.

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