History, objectivity, and the construction of molecular phylogenies.

Despite the promises made by molecular evolutionists since the early 1960s that phylogenies would be readily reconstructed using molecular data, the construction of molecular phylogenies has both retained many methodological problems of the past and brought up new ones of considerable epistemic relevance. The field is driven not only by changes in knowledge about the processes of molecular evolution, but also by an ever-present methodological anxiety manifested in the constant search for an increased objectivity-or in its converse, the avoidance of subjectivity. This paper offers an exhaustive account of the methodological and conceptual difficulties embedded in each of the steps required to elaborate molecular phytogenies. The authors adopt a historical perspective on the field in order to follow the development of practices that seek to increase the objectivity of their methods and representations. These include the adoption and development of explicit criteria for evaluation of evidence, and of procedures associated with methods of statistical inference, quantification and automation. All these are linked to an increasing use of computers in research since the mid 1960s. We will show that the practices of objectivity described are highly dependent on the problems and tools of molecular phylogenetics.

[1]  J. Felsenstein Estimation of hominoid phylogeny from a DNA hybridization data set , 2005, Journal of Molecular Evolution.

[2]  M. Kasha,et al.  Horizons in biochemistry : Albert Szent-Györgyi dedicatory volume , 1962 .

[3]  W. Summers,et al.  Reconceiving the Gene: Seymour Benzer's Adventures in Phage Genetics , 2006 .

[4]  Marianne Sommer History in the Gene: Negotiations Between Molecular and Organismal Anthropology , 2008, Journal of the history of biology.

[5]  Victor A. Albert,et al.  Parsimony, phylogeny, and genomics , 2006 .

[6]  William R. Taylor,et al.  The rapid generation of mutation data matrices from protein sequences , 1992, Comput. Appl. Biosci..

[7]  Maureen A. O’Malley,et al.  Paradigm change in evolutionary microbiology. , 2005, Studies in history and philosophy of biological and biomedical sciences.

[8]  J. Felsenstein,et al.  An evolutionary model for maximum likelihood alignment of DNA sequences , 1991, Journal of Molecular Evolution.

[9]  K. Vernon Desperately seeking status: Evolutionary Systematics and the taxonomists' search for respectability 1940–60 , 1993, The British Journal for the History of Science.

[10]  E. Margoliash PRIMARY STRUCTURE AND EVOLUTION OF CYTOCHROME C. , 1963, Proceedings of the National Academy of Sciences of the United States of America.

[11]  M. O. Dayhoff,et al.  22 A Model of Evolutionary Change in Proteins , 1978 .

[12]  P. Sellers On the Theory and Computation of Evolutionary Distances , 1974 .

[13]  W. Fitch Homology a personal view on some of the problems. , 2000, Trends in genetics : TIG.

[14]  S. Henikoff,et al.  Amino acid substitution matrices from protein blocks. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[15]  David Hinkley,et al.  Bootstrap Methods: Another Look at the Jackknife , 2008 .

[16]  J. Gogarten,et al.  Horizontal transfer of ATPase genes--the tree of life becomes a net of life. , 1993, Bio Systems.

[17]  L. Daston,et al.  The Image of Objectivity , 1992 .

[18]  E. Abouheif,et al.  Developmental genetics and homology: a hierarchical approach. , 1997, Trends in ecology & evolution.

[19]  W. Fitch,et al.  Construction of phylogenetic trees. , 1967, Science.

[20]  Lorraine Daston,et al.  Wonders and the Order of Nature, 1150-1750 , 1998 .

[21]  M. Laubichler Homology in Development and the Development of the Homology Concept1 , 2000 .

[22]  Masasuke Yoshida,et al.  Evolution of the vacuolar H+-ATPase: implications for the origin of eukaryotes. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[23]  C. Luo,et al.  A new method for estimating synonymous and nonsynonymous rates of nucleotide substitution considering the relative likelihood of nucleotide and codon changes. , 1985, Molecular biology and evolution.

[24]  T. Nagel The view from nowhere , 1987 .

[25]  W. Fitch Toward Defining the Course of Evolution: Minimum Change for a Specific Tree Topology , 1971 .

[26]  David M. Williams,et al.  Drowning by numbers: Rereading Nelson’s “Nullius in Verba” , 2005, The Botanical Review.

[27]  W. Doolittle,et al.  Lateral genomics. , 1999, Trends in cell biology.

[28]  Among-Run Artifacts in DNA Hybridization , 1991 .

[29]  Martin Vingron,et al.  Modeling Amino Acid Replacement , 2000, J. Comput. Biol..

[30]  J. Matthews Trust in numbers: The pursuit of objectivity in science and public life , 1996 .

[31]  Harmke Kamminga,et al.  Molecularizing Biology and Medicine: New Practices and Alliances 1910s - 1970s , 1998 .

[32]  J. Ahlquist,et al.  The Birds Reclassified. (Book Reviews: Phylogeny and Classification of Birds. A Study in Molecular Evolution.) , 1991 .

[33]  Manfred Dietrich Laubichler Homology in Development and the Development of the Homology Concept , 2008 .

[34]  T. Jukes CHAPTER 24 – Evolution of Protein Molecules , 1969 .

[35]  D. Higgins,et al.  See Blockindiscussions, Blockinstats, Blockinand Blockinauthor Blockinprofiles Blockinfor Blockinthis Blockinpublication Clustal: Blockina Blockinpackage Blockinfor Blockinperforming Multiple Blockinsequence Blockinalignment Blockinon Blockina Minicomputer Article Blockin Blockinin Blockin , 2022 .

[36]  G. Rochlin Trapped in the Net , 1997 .

[37]  F. Brinkman,et al.  Phylogenetic Analysis , 2020, Вестник Российского государственного медицинского университета.

[38]  J. D. Aronson 'Molecules and monkeys': George Gaylord Simpson and the challenge of molecular evolution. , 2002, History and philosophy of the life sciences.

[39]  S. Carroll,et al.  Fossils, genes and the evolution of animal limbs , 1997, Nature.

[40]  Doolittle Wf Phylogenetic Classification and the Universal Tree , 1999 .

[41]  R. Doolittle,et al.  Aligning amino acid sequences: Comparison of commonly used methods , 1985, Journal of Molecular Evolution.

[42]  L. Pauling,et al.  Evolutionary Divergence and Convergence in Proteins , 1965 .

[43]  J. Felsenstein The troubled growth of statistical phylogenetics. , 2001, Systematic biology.

[44]  H. Neurath,et al.  Homology as applied to proteins. , 1968, Science.

[45]  Brian K. Hall,et al.  Homology: The hierarchical basis of comparative biology , 1994 .

[46]  Elisabeth A. Lloyd Objectivity and the double standard for feminist epistemologies , 2005, Synthese.

[47]  Donald MacKenzie,et al.  Mechanizing Proof: Computing, Risk, and Trust , 2001 .

[48]  David L. Hull,et al.  Science as a Process: An Evolutionary Account of the Social and Conceptual Development of Science, David L. Hull. 1988. The University of Chicago Press, Chicago, IL. 608 pages. ISBN: 0-226-35060-4. $39.95 , 1989 .

[49]  Lynn Margulis,et al.  Symbiosis in Cell Evolution: Microbial Communities in the Archean and Proterozoic Eons , 1992 .

[50]  J. Hagen Naturalists, Molecular Biologists, and the Challenges of Molecular Evolution , 1999, Journal of the History of Biology.

[51]  Trudi Bellardo Hahn,et al.  Proceedings of the 1998 Conference on the History and Heritage of Science Information Systems , 1998 .

[52]  E. Suárez Satellite-DNA: A case-study for the evolution of experimental techniques , 2001 .

[53]  H. Longino Science as Social Knowledge: Values and Objectivity in Scientific Inquiry , 1990 .

[54]  A. Mclachlan,et al.  Repeating Sequences and Gene Duplication in Proteins , 1989 .

[55]  P. Rieder [Compte rendu de :] Wonders and the order of nature, 1150-1750 / Lorraine Daston et Katherine Park. New York : Zone Books, 1998 , 1999 .

[56]  Steven Shapin,et al.  A Social History of Truth: Civility and Science in Seventeenth-Century England. , 1995 .

[57]  Andreas D. Baxevanis,et al.  Bioinformatics - a practical guide to the analysis of genes and proteins , 2001, Methods of biochemical analysis.

[58]  J. Agassi,et al.  Scientific Philosophy Today , 1981 .

[59]  Lily E. Kay,et al.  The molecular vision of life : Caltech, the Rockefeller Foundation, and the rise of the new biology , 1994 .

[60]  R. Spang,et al.  Estimating amino acid substitution models: a comparison of Dayhoff's estimator, the resolvent approach and a maximum likelihood method. , 2002, Molecular biology and evolution.

[61]  C. Schmid,et al.  DNA hybridization as a guide to phylogeny: Relations of the Hominoidea , 1988 .

[62]  M S Waterman,et al.  Identification of common molecular subsequences. , 1981, Journal of molecular biology.

[63]  E. Díaz The Rhetoric of Informational Molecules: Authority and Promises in the Early Study of Molecular Evolution , 2007, Science in Context.

[64]  Peer Bork,et al.  Lateral Gene Transfer, Genome Surveys, and the Phylogeny of Prokaryotes , 1999 .

[65]  K. Lange Reconstruction of Evolutionary Trees , 1997 .

[66]  L. Sagan On the origin of mitosing cells , 1967, Journal of theoretical biology.

[67]  P. Tucker,et al.  Positive selection for indel substitutions in the rodent sperm protein catsper1. , 2005, Molecular biology and evolution.

[68]  T. Smith,et al.  Optimal sequence alignments. , 1983, Proceedings of the National Academy of Sciences of the United States of America.

[69]  M. Haber On probability and systematics: possibility, probability, and phylogenetic inference. , 2005, Systematic biology.

[70]  J. Agassi,et al.  Molecular Phylogenetics: Biological Parsimony and Methodological Extravagance , 1981 .

[71]  J. Sapp The structure of microbial evolutionary theory. , 2007, Studies in history and philosophy of biological and biomedical sciences.

[72]  J. Stiller,et al.  The largest subunit of RNA polymerase II from the Glaucocystophyta: functional constraint and short-branch exclusion in deep eukaryotic phylogeny , 2005, BMC Evolutionary Biology.

[73]  R. Porter Wonders and the order of nature , 1999 .

[74]  Franklin M. Harold Microbial Phylogeny and Evolution: Concepts and Controversies , 2006 .

[75]  M. Nei,et al.  Simple methods for estimating the numbers of synonymous and nonsynonymous nucleotide substitutions. , 1986, Molecular biology and evolution.

[76]  Ian Hacking,et al.  A Social History of Truth: Civility and Science in Seventeenth-Century England. , 1995 .

[77]  V. Bryson,et al.  Evolving Genes and Proteins. , 1965, Science.

[78]  Elliott Sober,et al.  Likelihood and Convergence , 1988, Philosophy of Science.

[79]  R. Sokal,et al.  Principles of numerical taxonomy , 1965 .

[80]  O. Rieppel,et al.  The Poverty of Taxonomic Characters , 2007 .

[81]  O. Rieppel Parsimony, likelihood, and instrumentalism in systematics , 2007 .

[82]  Joel B. Hagen,et al.  1The introduction of computers into systematic research in the United States during the 1960s , 2001 .

[83]  A. Templeton,et al.  The phylogeny of the hominoid primates: a statistical analysis of the DNA-DNA hybridization data. , 1985, Molecular biology and evolution.

[84]  A. Templeton Further comments on the statistical analysis of DNA-DNA hybridization data. , 1986, Molecular biology and evolution.

[85]  S. Washburn Classification and human evolution , 1963 .

[86]  J. Felsenstein CONFIDENCE LIMITS ON PHYLOGENIES: AN APPROACH USING THE BOOTSTRAP , 1985, Evolution; international journal of organic evolution.

[87]  Walter S. Buckingham Automation : its impact on business and people , 1961 .

[88]  M. O. Dayhoff,et al.  Origins of prokaryotes, eukaryotes, mitochondria, and chloroplasts. , 1978, Science.

[89]  M. Dietrich,et al.  Paradox and Persuasion: Negotiating the Place of Molecular Evolution within Evolutionary Biology , 1998, Journal of the history of biology.

[90]  J. Ahlquist,et al.  DNA hybridization evidence of hominoid phylogeny: Results from an expanded data set , 2005, Journal of Molecular Evolution.

[91]  C. Woese,et al.  Phylogenetic structure of the prokaryotic domain: The primary kingdoms , 1977, Proceedings of the National Academy of Sciences of the United States of America.

[92]  Theodore M. Porter,et al.  Quantification and the Accounting Ideal in Science , 1992 .

[93]  M. Kimura A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences , 1980, Journal of Molecular Evolution.

[94]  J. Ahlquist,et al.  DNA hybridization evidence of hominoid phylogeny: A reanalysis of the data , 1990, Journal of Molecular Evolution.

[95]  Wen-Hsiung Li,et al.  Fundamentals of molecular evolution , 1990 .

[96]  W. Garrett,et al.  This Week's Citation Classic Tm , 2022 .

[97]  K. Vernon The Founding of Numerical Taxonomy , 1988, The British Journal for the History of Science.

[98]  Farish A. Jenkins,et al.  The pectoral fin of Tiktaalik roseae and the origin of the tetrapod limb , 2006, Nature.

[99]  L. Orgel,et al.  Phylogenetic Classification and the Universal Tree , 1999 .

[100]  W. Fitch Distinguishing homologous from analogous proteins. , 1970, Systematic zoology.

[101]  Inna Dubchak,et al.  Glocal alignment: finding rearrangements during alignment , 2003, ISMB.

[102]  Maureen A. O’Malley,et al.  Towards a philosophy of microbiology. , 2007, Studies in history and philosophy of biological and biomedical sciences.

[103]  W. Doolittle,et al.  Prokaryotic evolution in light of gene transfer. , 2002, Molecular biology and evolution.

[104]  H. Munro,et al.  Mammalian protein metabolism , 1964 .

[105]  M. Goodman On the Emergence of Intraspecific Differences in the Protein Antigens of Human Beings , 1960, The American Naturalist.

[106]  Stephen Jay Gould,et al.  Evolution and the Triumph of Homology, or Why History Matters , 1986 .

[107]  G J Morgan,et al.  Emile Zuckerkandl, Linus Pauling, and the Molecular Evolutionary Clock, 1959–1965 , 1998, Journal of the history of biology.

[108]  M. Goodman Epilogue: a personal account of the origins of a new paradigm. , 1996, Molecular phylogenetics and evolution.

[109]  N. Rescher Objectivity: The Obligations of Impersonal Reason , 1997 .

[110]  W. Fitch,et al.  The relation between frequencies of amino acids and ordered trinucleotides. , 1966, Journal of molecular biology.

[111]  J. Felsenstein Cases in which Parsimony or Compatibility Methods will be Positively Misleading , 1978 .

[112]  S. Schully,et al.  Positive Selection on Nucleotide Substitutions and Indels in Accessory Gland Proteins of the Drosophila pseudoobscura Subgroup , 2006, Journal of Molecular Evolution.

[113]  S. B. Needleman,et al.  A general method applicable to the search for similarities in the amino acid sequence of two proteins. , 1970, Journal of molecular biology.

[114]  M. O. Dayhoff,et al.  Evolution of the Structure of Ferredoxin Based on Living Relics of Primitive Amino Acid Sequences , 1966, Science.

[115]  W. Martin,et al.  The missing link between hydrogenosomes and mitochondria. , 2005, Trends in microbiology.

[116]  M. Waterman,et al.  Comparative biosequence metrics , 2005, Journal of Molecular Evolution.

[117]  K. Fitzhugh The ‘requirement of total evidence’ and its role in phylogenetic systematics , 2006 .

[118]  M. O. Dayhoff,et al.  Atlas of protein sequence and structure , 1965 .

[119]  Maclyn,et al.  CELEBRATING THE THIRTY-FIFTH ANNIVERSARY OF THE PUBLICATION ' OF " STUDIES ON THE CHEMICAL NATURE OF THE SUBSTANCE INDUCING TRANSFORMATION OF PNEUMOCOCCAL TYPES " Induction of Transformation by a Desoxyribonucleic Acid Fraction Isolated From Pneumococcus Type III , 1998 .

[120]  Joel Hagen,et al.  The Statistical Frame of Mind in Systematic Biology from Quantitative Zoology to Biometry , 2003, Journal of the history of biology.

[121]  Paul E. Ceruzzi,et al.  A history of modern computing , 1999 .

[122]  Wen-Hsiung Li Unbiased estimation of the rates of synonymous and nonsynonymous substitution , 2006, Journal of Molecular Evolution.

[123]  S. Altschul Amino acid substitution matrices from an information theoretic perspective , 1991, Journal of Molecular Biology.

[124]  Joseph Felsenstein,et al.  An efficient method for matching nucleic acid sequences , 1982, Nucleic Acids Res..

[125]  R. Thorne,et al.  Phenetic and Phylogenetic Classification , 1964, Nature.

[126]  G. Simpson,et al.  Quantitative zoology : numerical concepts and methods in the study of recent and fossil animals , 1939 .

[127]  Peter Godfrey-Smith,et al.  Reconstructing the Past: Parsimony, Evolution, and Inference , 1989 .