Molecular Evolution: Evidence for Monophyly of Metazoa

Overview

This volume concentrates on the origin of multicellular animals, Metazoa. Until now, no unequivocal phylogeny has been produced. Therefore, the questions remain: Did Metazoa evolve from the Protozoa only once, or several times? Is the origin of animals monophyletic or polyphyletic? Especially the relationships between the existing lower metazoan phyla, particularly the Porifera (sponges) are uncertain. Based on sequence data of genes typical for multicellularity it is demonstrated that all Metazoa, including ...

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Overview

This volume concentrates on the origin of multicellular animals, Metazoa. Until now, no unequivocal phylogeny has been produced. Therefore, the questions remain: Did Metazoa evolve from the Protozoa only once, or several times? Is the origin of animals monophyletic or polyphyletic? Especially the relationships between the existing lower metazoan phyla, particularly the Porifera (sponges) are uncertain. Based on sequence data of genes typical for multicellularity it is demonstrated that all Metazoa, including Porifera, should be placed into the kingdom Animalia together with the Eumetazoa. Therefore it is most likely that all animals are of monophyletic origin.

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Product Details

  • ISBN-13: 9783642487477
  • Publisher: Springer Berlin Heidelberg
  • Publication date: 4/18/2012
  • Series: Progress in Molecular and Subcellular Biology Series , #19
  • Edition description: Softcover reprint of the original 1st ed. 1998
  • Edition number: 1
  • Pages: 189
  • Product dimensions: 6.69 (w) x 9.61 (h) x 0.43 (d)

Table of Contents

Transition from Protozoa to Metazoa: An Experimental Approach.- 1 Introduction.- 2 Proteins Present in All Biotic Regna.- 2.1 Reproduction.- 2.2 Growth and Development.- 2.3 Energy Utilization.- 2.4 Response to the Environment.- 2.5 Homeostasis.- 2.6 Evolutionary Adaptation.- 3 Monophyly of Metazoa.- 4 Origin of Metazoan Genes and Proteins.- 4.1 Introns.- 4.2 Protein Modules.- 5 Evolution of Metazoan Genes.- 5.1 Sponge: Receptor Tyrosine Kinase.- 5.2 Tunicate: Immunolectin — Antigen Receptor.- 5.2.1 Immunolectin.- 5.2.2 Antigen Receptor.- 5.3 Protein Kinases.- 5.3.1 Ser/Thr Kinases.- 5.3.2 Tyr Kinases.- 5.3.3 Relationship Between Ser/Thr and Tyr Kinases.- 6 Directed Evolution?.- References.- Individuality in Early Eukaryotes and the Consequences for Matazoan Development.- 1 Introduction.- 2 The Evolution of Metabolism and Development.- 2.1 Metabolism and Development, Revisited.- 2.1.1 Mihondria Make Waves.- 2.1.2 Oxygen Radicals and Cell Signaling.- 2.1.3 Oxygen Radicals and Cell Signaling, Continued.- 2.1.4 Metabolism and Development in the Basal Metazoa.- 2.1.5 Summary.- 2.2 The Logic of the Metabolic Control of Development.- 2.2.1 Simple to Complex Cells.- 2.2.2 Single Cells to Multicellular Organisms.- 2.2.3 Summary: The Logic of Metabolic Control.- 2.3 Summary.- 3 Conclusions.- 3.1 Metazoan Phylogeny and the Mechanisms of Development.- 3.2 Toward a Predictive Theory of Evolution.- References.- Evolution of Animal Lectins.- 1 Introduction.- 2 Brief Overview of Lectins.- 3 Evolution of the C-Type Lectin Family.- 3.1 Overview of the Members of the C-Type Lectin Family.- 3.1.1 Receptor Proteins.- 3.1.2 Soluble Proteins.- 3.2 Biochemical Properties of C-Type Lectin.- 3.2.1 General Properties.- 3.2.2 Binding Specificity.- 3.2.3 Structure of the Sugar-Binding Site.- 3.3 Molecular Evolution of C-Type Lectins.- 4 Evolution of Galectins.- 4.1 Galectin: A New Family Name for a Group of Animal Lectins.- 4.1.1 The Early Period of Galectin Research.- 4.1.2 Expansion of the Galectin Family.- 4.2 Biochemical Properties of the Galectin Family.- 4.2.1 General Properties.- 4.2.2 Three Types of Galectins.- 4.3 Gene Structures of Galectins.- 4.4 Molecular Evolution of Galectins.- 4.4.1 Sequence Similarity Between Galectins.- 4.4.2 Divergence of Galectins.- 4.5 Galectins: Relatives of Legume Lectins?.- 5 Comparison of the Galectin Family and the C-Type Lectin Family.- 5.1 Family Size.- 5.2 Molecular Architecture.- 5.3 Binding Specificity.- 5.4 Localization.- 5.5 Different Missions Assigned to Galectins and C-Type Lectins.- 6 Evolution of Glycocodes.- 6.1 Galactose: A Special Position in Sugar Recognition.- 6.2 Selection of Elementary Sugars in the Life System.- 6.3 Monosaccharides: Biosynthesis from Glucose and Mannose.- 6.4 A Possible Scenario of the Origin of Carbohydrates.- References.- Molecular Phylogeny of Eumetazoa: Genes in Sponges (Porifera) Give Evidence for Monophyly of Animals.- 1 Introduction.- 2 Earlier Problems.- 3 Porifera (Sponges).- 3.1 Tissue.- 3.2 Cell Number.- 3.3 Genome Size.- 3.4 Phylogenetic Position.- 4 Rationale for a Classification of Sponges as Metazoa.- 4.1 Molecules Controlling Tissue Formation.- 4.2 Signal Transduction Molecules.- 4.2.1 Type I Receptors.- 4.2.2 Type II Receptors.- 4.2.3 Type III Receptors.- 4.3 Transcription Factors.- 4.4 Migration.- 4.5 Molecules of Sensory Organs?.- 4.6 Response to the Environment.- 4.7 Morphogens.- 4.8 Molecules Potentially Involved in Sponge Immunity.- 5 Genes in Sponges: Coding for Metazoan Proteins.- 5.1 Model Animal.- 5.2 Gene Structure.- 5.2.1 Lack of Introns.- 5.2.2 Intron Polymorphism.- 5.3 Genes/cDNAs Controlling Tissue Formation.- 5.3.1 Collagen.- 5.3.2 Integrin Receptor.- 5.3.3 “C-Type” Lectins — Galectins.- 5.3.4 Biological Role of Sponge Galectins.- 5.4 Signal Transduction Molecules.- 5.4.1 Receptor Tyrosine Kinase.- 5.4.2 Serine/Threonine Kinases.- 5.5 Transcription Factors.- 5.5.1 Homeodomain Proteins.- 5.5.2 Serum Response Factor.- 5.6 Migration.- 5.7 Molecules of Sensory Organs?.- 5.8 Response to the Environment.- 5.8.1 Heat-Shock Protein 70.- 5.8.2 Ubiquitin.- 5.8.3 DnaJ.- 5.8.4 GDP Dissociation Inhibitor.- 5.9 Molecules Potentially Involved in Sponge Immunity.- 5.9.1 Polymorphism in the Ig-Like Domains of the Receptor Tyrosine Kinase.- 5.9.2 Proteins and Genes in G. cydonium Related to the Human MHC.- 5.9.3 Proteins Featuring Scavenger Receptor Cysteine-Rich Domains.- 5.9.4 Molecules Comprising Short Consensus Repeats.- 6 Evolutionary Tempo.- 7 Conclusion.- References.- Homeobox Genes in the Freshwater Sponge Ephydatia fluviatilis.- 1 Introduction.- 2 Classification of Homeobox Genes.- 2.1 Characteristics of Homeodomains.- 2.2 Classification of Homeobox Genes in Drosophila.- 3 Homeobox Genes in Freshwater Sponges.- 3.1 Methods for the Identification of Hemeobox Genes in Low Metazoans.- 3.2 Homeobox Genes Isolated from Sponges.- 3.2.1 prox1, prox2, and prox3.- 3.2.2 spou-1 and spou-2.- 3.2.3 Other Homeobox Genes.- 4 Comparison of the Homeobox Genes of Sponges with Those of Other Animals.- 4.1 Comparison of the Amino Acid Sequences of the Homeodomains Encoded by prox1, prox2, and prox3 of Sponges with Those of Other Animals.- 4.2 Comparison of Amino Acid Sequences of POU-Specific Domains and POU-Type Homeodomains Encoded by spou-1 and spou-2 of Sponge with Those of Other Animals.- 5 Principles Associated with the Conservation and Diversification of Homeobox Genes During Animal Evolution.- 6 Conclusion.- References.- Homeobox-Containing Genes in Freshwater Sponges: Characterization, Expression and Phylogeny.- 1 Introduction.- 2 Materials and Methods.- 2.1 Purification and Labelling of DNA Fragments.- 2.2 Screening of a Sponge Genomic Library.- 2.3 Random Sequencing of the 12 kb-Cloned Sponge DNA.- 2.4 Sequence Analysis.- 2.5 Sponge Culture.- 2.6 RNA Extraction.- 2.7 RT-PCR Experiments.- 3 Results and Discussion.- 3.1 Cloning and Sequencing of the EmH-3 Homeobox-Containing Gene.- 3.2 EmH-3 Gene Organization.- 3.3 Analysis of the EmH-3 Homeobox Protein.- 3.4 Expression of the EmH-3 Gene in the Course of Development.- 3.5 Phylogeny of Sponge Homeobox-Containing Genes.- 4 Conclusions.- References.- Early Evolution of the Metazoa: An Inference from the Elongation Factor-1?.- 1 Introduction.- 2 Inference from EF-1? Sequences.- 3 Monophyly of the Metazoa.- 4 Phylogenetic Status of the Diploblasts.- 5 Conclusion.- References.

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