| scholarly article | Q13442814 |
| P50 | author | Peter Holland | Q24808660 |
| Jordi Garcia-fernandez | Q42788580 | ||
| P2093 | author name string | Wada H | |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 131-141 | |
| P577 | publication date | 1999-09-01 | |
| P1433 | published in | Developmental Biology | Q3025402 |
| P1476 | title | Colinear and segmental expression of amphioxus Hox genes | |
| P478 | volume | 213 |
| Q48546844 | A Gbx homeobox gene in amphioxus: insights into ancestry of the ANTP class and evolution of the midbrain/hindbrain boundary |
| Q42961210 | A Hox regulatory network of hindbrain segmentation is conserved to the base of vertebrates |
| Q64099213 | A Hox-TALE regulatory circuit for neural crest patterning is conserved across vertebrates |
| Q35679694 | A Simple Predictive Enhancer Syntax for Hindbrain Patterning Is Conserved in Vertebrate Genomes |
| Q46837007 | A comparative examination of neural circuit and brain patterning between the lamprey and amphioxus reveals the evolutionary origin of the vertebrate visual center. |
| Q36501247 | A gene catalogue of the amphioxus nervous system. |
| Q34296012 | A neurochemical map of the developing amphioxus nervous system. |
| Q83916489 | A retinoic acid-Hox hierarchy controls both anterior/posterior patterning and neuronal specification in the developing central nervous system of the cephalochordate amphioxus |
| Q35133664 | A study of neural-related microRNAs in the developing amphioxus. |
| Q30936765 | An amphioxus Emx homeobox gene reveals duplication during vertebrate evolution |
| Q35876078 | Analysis of dynamic changes in retinoid-induced transcription and epigenetic profiles of murine Hox clusters in ES cells |
| Q42057926 | Broken colinearity of the amphioxus Hox cluster. |
| Q33745285 | Chordate origins of the vertebrate central nervous system |
| Q52115000 | Ciona intestinalis ParaHox genes: evolution of Hox/ParaHox cluster integrity, developmental mode, and temporal colinearity. |
| Q36070210 | Ciona intestinalis: chordate development made simple |
| Q45917144 | Cis-regulatory characterization of sequence conservation surrounding the Hox4 genes. |
| Q42684556 | Coincident iterated gene expression in the amphioxus neural tube |
| Q52142969 | Conservation and elaboration of Hox gene regulation during evolution of the vertebrate head. |
| Q46991297 | Conserved RARE localization in amphioxus Hox clusters and implications for Hox code evolution in the vertebrate neural crest |
| Q48309542 | Conserved expression of Hoxa1 in neurons at the ventral forebrain/midbrain boundary of vertebrates |
| Q37783244 | Control of Vertebrate Hox Clusters by Remote and Global Cis-Acting Regulatory Sequences |
| Q33507999 | Coordinated spatial and temporal expression of Hox genes during embryogenesis in the acoel Convolutriloba longifissura |
| Q53835439 | Coupling the roles of Hox genes to regulatory networks patterning cranial neural crest. |
| Q44615630 | Cytoarchitecture, topography, and descending supraspinal projections in the anterior central nervous system of Branchiostoma lanceolatum. |
| Q34581603 | Deuterostome brains: synopsis and commentary |
| Q54352428 | Development and evolution of the lateral plate mesoderm: comparative analysis of amphioxus and lamprey with implications for the acquisition of paired fins. |
| Q55259542 | Developmental Mechanism of Limb Field Specification along the Anterior-Posterior Axis during Vertebrate Evolution. |
| Q31077518 | Developmental mechanism and evolutionary origin of vertebrate left/right asymmetries |
| Q46186120 | Differential regulation of ParaHox genes by retinoic acid in the invertebrate chordate amphioxus (Branchiostoma floridae). |
| Q48310297 | Distribution of neuropeptide Y immunoreactivity in the central and peripheral nervous systems of amphioxus (Branchiostoma lanceolatum Pallas). |
| Q38293606 | Early development of amphioxus nervous system with special reference to segmental cell organization and putative sensory cell precursors: a study based on the expression of pan-neuronal marker gene Hu/elav |
| Q28655696 | Enigmatic orthology relationships between Hox clusters of the African butterfly fish and other teleosts following ancient whole-genome duplication |
| Q59093172 | Erratum: Lamprey Hox genes and the origin of jaws |
| Q38323051 | Ets identified as a trans-regulatory factor of amphioxus Hox2 by transgenic analysis using ascidian embryos |
| Q34074971 | Evolution of anterior Hox regulatory elements among chordates |
| Q28597848 | Evolution of invertebrate deuterostomes and Hox/ParaHox genes |
| Q37570811 | Evolution of the Hox gene complex from an evolutionary ground state |
| Q36121152 | Evolution of the brain developmental plan: Insights from agnathans |
| Q91766095 | Evolution of vertebrate spinal cord patterning |
| Q47576549 | Evolutionary biology: lamprey Hox genes and the evolution of jaws. |
| Q36501242 | Exploring developmental, functional, and evolutionary aspects of amphioxus sensory cells |
| Q42688351 | Expression of AmphiPOU-IV in the developing neural tube and epidermal sensory neural precursors in amphioxus supports a conserved role of class IV POU genes in the sensory cells development. |
| Q48062230 | Expression of Hox genes during the larval development of the snail, Gibbula varia (L.)-further evidence of non-colinearity in molluscs |
| Q46070674 | Expression of a Scr/Hox5 gene in the larval central nervous system of the gastropod Haliotis, a non-segmented spiralian lophotrochozoan |
| Q52005668 | Expression patterns of Hox genes in larvae of the sea lily Metacrinus rotundus. |
| Q34723497 | Gene duplication and divergence in the early evolution of vertebrates |
| Q48305826 | Gene duplications in the prototypical cephalochordate amphioxus. |
| Q28657806 | How Hox genes can shed light on the place of echinoderms among the deuterostomes |
| Q37112239 | Hox cluster genomics in the horn shark, Heterodontus francisci |
| Q30830135 | Hox cluster organization in the jawless vertebrate Petromyzon marinus |
| Q48140665 | Hox gene expression patterns in Lethenteron japonicum embryos--insights into the evolution of the vertebrate Hox code |
| Q36501239 | Hox genes are not always Colinear. |
| Q35590931 | Hox genes pattern the anterior-posterior axis of the juvenile but not the larva in a maximally indirect developing invertebrate, Micrura alaskensis (Nemertea). |
| Q42631644 | Identification and characterisation of five novel miniature inverted-repeat transposable elements (MITEs) in amphioxus (Branchiostoma floridae). |
| Q92591372 | Inter-rhombomeric interactions reveal roles for fibroblast growth factors signaling in segmental regulation of EphA4 expression |
| Q38065280 | Molecular and evolutionary basis of limb field specification and limb initiation |
| Q34487588 | Molecular approach to echinoderm regeneration |
| Q33579321 | Molecular regionalization of the developing amphioxus neural tube challenges major partitions of the vertebrate brain |
| Q28769793 | New perspectives on the evolution of protochordate sensory and locomotory systems, and the origin of brains and heads |
| Q33233196 | Oncopeltus fasciatus zen is essential for serosal tissue function in katatrepsis |
| Q36103648 | Organization of Hox genes in ascidians: present, past, and future |
| Q34136088 | Origin and early evolution of the vertebrates: new insights from advances in molecular biology, anatomy, and palaeontology |
| Q34383935 | Origin and evolution of the neural crest: a hypothetical reconstruction of its evolutionary history |
| Q35558097 | Origin of the isthmus? A comparison of the brains of lancelets and vertebrates |
| Q28361877 | Origins of anteroposterior patterning and Hox gene regulation during chordate evolution |
| Q50573546 | Patterning of anteroposterior body axis displayed in the expression of Hox genes in sea cucumber Apostichopus japonicus. |
| Q34141418 | Patterning the protochordate neural tube |
| Q51874771 | Regeneration of amphioxus oral cirri and its skeletal rods: implications for the origin of the vertebrate skeleton. |
| Q52054202 | Restricted expression of a median Hox gene in the central nervous system of chaetognaths. |
| Q36671689 | Retinoic acid influences anteroposterior positioning of epidermal sensory neurons and their gene expression in a developing chordate (amphioxus). |
| Q34595150 | Retinoic acid signaling and the evolution of chordates |
| Q43242143 | Retinoic acid signaling targets Hox genes during the amphioxus gastrula stage: insights into early anterior-posterior patterning of the chordate body plan |
| Q38644036 | Segmental arithmetic: summing up the Hox gene regulatory network for hindbrain development in chordates. |
| Q57286291 | Staggered Hox expression is more widespread among molluscs than previously appreciated |
| Q34974405 | The evolution of left-right asymmetry in chordates |
| Q36337935 | The evolution of metazoan axial properties |
| Q34087798 | The evolution of the vertebrates--genes and development |
| Q45231877 | Unexpectedly large number of conserved noncoding regions within the ancestral chordate Hox cluster |
| Q28776178 | Vertebrate innovations |
| Q27027888 | What can vertebrates tell us about segmentation? |
Search more.