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Cephalochordate
Brains of Primitive Chordates 439
The Origins of Chordate Larvae Donald I Williamson* Marine Biology, University of Liverpool, Liverpool L69 7ZB, United Kingdom
Abstract Introduction
Single Cell Chromatin Accessibility of the Developmental
Hemichordate Phylogeny: a Molecular, and Genomic Approach By
Molecular Investigation of the Cnidarian-Dinoflagellate Symbiosis
An EST Screen from the Annelid Pomatoceros Lamarckii Reveals
Common Genetic Denominators for Ca -Based Skeleton in Metazoa
Tbx4/5 Gene Duplication and the Origin of Vertebrate Paired Appendages
Evolutionary Crossroads in Developmental Biology: Amphioxus Stephanie Bertrand and Hector Escriva*
Craniata and Vertebrata
A ZZ/ZW Sex Chromosome System in Cephalochordate Amphioxus
Fiftee N Vertebrate Beginnings the Chordates
The Evolution of Metazoan Α-Carbonic Anhydrases and Their Roles In
Evidence of Signaling and Adhesion Roles for Β-Catenin in the Sponge Ephydatia Muelleri
Phylum Chordata-Fishes
Sub-Phylum Cephalochordata (Lancelets) Objectives
Tunicates and Not Cephalochordates Are the Closest Living Relatives of Vertebrates
Top View
Lampreys, the Jawless Vertebrates, Contain Only Two Parahox Gene Clusters
A Phylogenomic Profile of Globins Serge N
Tracking Human Evolution: Where Do We Fit on the Tree of Life? Geology 230 Fossils and Evolution Phylogenetic Classification of Humans
The Transcriptome of an Amphioxus, Asymmetron Lucayanum, from the Bahamas: a Window Into Chordate Evolution
Supporting Information Supporting Information Corrected November 10, 2010 Heimberg Et Al
The Transcriptome of an Amphioxus, Asymmetron Lucayanum, from the Bahamas: a Window Into Chordate Evolution
Developmental Gene Expression Provides Clues to Relationships Between Sponge and Eumetazoan Body Plans
New Evidence for Genome-Wide Duplications at the Origin Of
Evolution of Basal Deuterostome Nervous Systems
1 Title 1 an Updated Staging System for Cephalochordate Development
The Globin Gene Family of the Cephalochordate Amphioxus
Biol 111 – Comparative & Human Anatomy Lab 1: Introduction
The Amphioxus Genome Illuminates Vertebrate Origins and Cephalochordate Biology
The Chordates: Putting a Backbone Into Spineless Animals Note: These Links Do Not Work
On the Origin of Vertebrate Body Plan: Insights from the Endoderm Using the Hourglass Model
Morphological Stasis and Proteome Innovation in Cephalochordates
The Amphioxus Genome Illuminates Vertebrate Origins and Cephalochordate Biology
29.1 Chordates
Chordate Characteristics Bilateral Symmetrical Deuterostome Distinctive Characteristics Notochord
Chordate Evolution and the Origin of Craniates: an Old Brain in a New Head
Amphioxus Regeneration: Evolutionary and Biomedical Implications ILDIKÓ M.L
Keeping Amphioxus in the Laboratory: an Update on Available Husbandry Methods JOÃO E
Asymmetric Expression of Bbptx in Lancelets 189
A Proposal for the Evolution of Cathepsin and Silicatein in Sponges
Non-Random Decay of Chordate Characters Causes Bias in Fossil Interpretation
Applicability of Mitochondrial Genome Data to Annelid
Terminal Addition, the Cambrian Radiation and the Phanerozoic Evolution of Bilaterian Form
The New View of Animal Phylogeny Author(S): Kenneth M
The Global Invertebrate Genomics Alliance (GIGA): Developing Community Resources to Study Diverse Invertebrate Genomes
Gene Duplications in the Prototypical Cephalochordate Amphioxusq
Phylum Mollusca
Chordate Animals
A Phylogeny of the Hemichordates Based on Morphological Characters1
Development and Evolution of Chordate Cartilage 1 2 1 AMANDA L
The Origin and Evolution of Vertebrates 697 Echinodermata (Sister Group to Chordates)
And the Implications for the Vertebrate Fossil Decay of Vertebrate
Amphioxus Genome