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1. Full Text Arborization pattern of Engrailed‐positive neural lineages reveal neuromere boundaries in the Drosophila brain neuropil
by Kumar, Abhilasha and Fung, S and Lichtneckert, Robert and Reichert, Heinrich and Hartenstein, Volker
Journal of Comparative Neurology, ISSN 0021-9967, 11/2009, Volume 517, Issue 1, pp. 87 - 104
The Drosophila brain is a highly complex structure composed of thousands of neurons that are interconnected in numerous exquisitely organized neuropil... 
neuropil | lineage | compartment | arborization | neuromere | engrailed | Lineage | Engrailed | Neuropil | Arborization | Compartment | Neuromere | ANTENNAL MOTOR SYSTEM | EMPTY-SPIRACLES | CENTRAL PROJECTIONS | NEUROSCIENCES | EXPRESSION PATTERNS | ZOOLOGY | LOCUST SCHISTOCERCA-GREGARIA | DEVELOPMENTAL FATE | EARLY NEUROGENESIS | EMBRYONIC ORIGIN | CENTRAL-NERVOUS-SYSTEM | SEGMENTATION GENES | Immunohistochemistry | Neuropil - physiology | Brain - cytology | Metamorphosis, Biological - physiology | Animals, Genetically Modified | Homeodomain Proteins - metabolism | Fluorescence | Drosophila - cytology | Neurons - cytology | Brain - growth & development | Drosophila Proteins - metabolism | Brain - physiology | Drosophila - physiology | Transcription Factors - metabolism | Cell Lineage | Microscopy, Confocal | Animals | Aging - physiology | Neurons - physiology | Drosophila - growth & development | Models, Neurological | Imaging, Three-Dimensional | Neuropil - cytology
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2. Full Text Boundary Formation and Compartition in the Avian Diencephalon
by Larsen, Camilla W and Zeltser, Lori M and Lumsden, Andrew
Journal of Neuroscience, ISSN 0270-6474, 07/2001, Volume 21, Issue 13, pp. 4699 - 4711
The diencephalon comprises three functionally distinct regions: synencephalon, dorsal thalamus, and ventral thalamus. Patterning of the diencephalon has been... 
CNS | Boundaries | Neuromeres | Segmentation | Diencephalon | Compartments | FOREBRAIN | RHOMBOMERE BOUNDARIES | NOTCH | GLYCOSYLTRANSFERASE | CHICK-EMBRYO HINDBRAIN | compartments | NEUROSCIENCES | DROSOPHILA | diencephalon | FRINGE | segmentation | boundaries | neuromeres | DIFFERENTIATION | CELL | EXPRESSION | Diencephalon - metabolism | Immunohistochemistry | Homeodomain Proteins - metabolism | Antigens, Surface - genetics | Glycosyltransferases | Bromodeoxyuridine | Neurons - cytology | Chick Embryo | Homeodomain Proteins - genetics | Morphogenesis | Proteins - genetics | Cell Lineage | Diencephalon - embryology | Animals | In Situ Hybridization | Proteins - metabolism | Gene Expression Regulation, Developmental | S Phase | Body Patterning | Antigens, Surface - metabolism | Antigens, Differentiation - metabolism | Avian Proteins | Diencephalon - cytology
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3. Full Text The arborization pattern of engrailed-positive neural lineages reveal neuromere boundaries in the Drosophila brain neuropile
by Kumar, Abhilasha and Fung, S and Lichtneckert, Robert and Reichert, Heinrich and Hartenstein, Volker
The Journal of comparative neurology, ISSN 0021-9967, 11/2009, Volume 517, Issue 1, pp. 87 - 104
The Drosophila brain is a highly complex structure composed of thousands of neurons that are interconnected in numerous exquisitely organized neuropile... 
lineage | compartment | arborization | neuromere | engrailed | neuropile
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4. Full Text Role of cadherins in maintaining the compartment boundary between the cortex and striatum during development
by T. Inoue and T. Tanaka and M. Takeichi and O. Chisaka and S. Nakamura and N. Osumi
Development, ISSN 0950-1991, 02/2001, Volume 128, Issue 4, pp. 561 - 569
In ventricular cells of the mouse telencephalon, differential expression of cadherin cell adhesion molecules defines neighbouring regions; R-cadherin... 
Cortico-striatal boundary | Mouse | Neuromeres | Compartment | Cell lineage restriction | Telencephalon | Cadherins | Electroporation | Mammalian whole embryo culture | FOREBRAIN | mammalian whole embryo culture | telencephalon | cell lineage restriction | DEVELOPMENTAL BIOLOGY | cadherins | mouse | HINDBRAIN | compartment | cortico-striatal boundary | GENE-EXPRESSION | SEGMENTATION | neuromeres | CENTRAL-NERVOUS-SYSTEM | electroporation | CELL-CELL ADHESION | R-CADHERIN | SUBDIVISIONS | EMBRYOS | BRAIN | Immunohistochemistry | Gene Transfer Techniques | Neostriatum - cytology | Cadherins - metabolism | Mutation - genetics | Cerebral Cortex - cytology | Embryonic and Fetal Development | Cerebral Cortex - metabolism | Embryo, Mammalian - metabolism | Cell Lineage | Animals | Cerebral Cortex - embryology | Embryo, Mammalian - embryology | Embryo, Mammalian - cytology | Gene Expression Regulation, Developmental | Recombinant Fusion Proteins - genetics | Neostriatum - metabolism | Mice | Cadherins - genetics | Genetic Vectors | Microscopy, Fluorescence | Neostriatum - embryology
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5. Full Text Lineage restriction maintains a stable organizer cell population at the zebrafish midbrain-hindbrain boundary
by Tobias Langenberg and Michael Brand
Development, ISSN 0950-1991, 07/2005, Volume 132, Issue 14, pp. 3209 - 3216
The vertebrate hindbrain is subdivided into segments, termed neuromeres, that are units of gene expression, cell differentiation and behavior. A key property... 
gbx1 | Isthmic organizer | Mesencephalon | Neuromeres | Midbrain-hindbrain boundary | Lineage restriction | Segments | Zebrafish | Metencepahlon | otx2 | fgf8 | isthmic organizer | EMBRYONIC-DEVELOPMENT | mesencephalon | DEVELOPMENTAL BIOLOGY | lineage restriction | segments | EPH RECEPTORS | IN-VIVO | CHICK-EMBRYO | neuromeres | CENTRAL-NERVOUS-SYSTEM | midbrain-hindbrain boundary | zebrafish | metencephalon | BRACHYDANIO-RERIO | EXPRESSION | Mesencephalon - cytology | Organizers, Embryonic - cytology | Zebrafish - embryology | Organizers, Embryonic - embryology | Cell Lineage - physiology | Rhombencephalon - cytology | Iontophoresis | Animals | Mesencephalon - embryology | Time Factors | Gene Expression - physiology | Cell Lineage - genetics | Genes, Reporter | Rhombencephalon - embryology
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6. Full Text Expression of secreted semaphorins and their receptors in specific neuromeres, boundaries, and neuronal groups in the developing mouse and chick brain
by Meléndez-Herrera, Esperanza and Varela-Echavarría, Alfredo
Brain Research, ISSN 0006-8993, 2006, Volume 1067, Issue 1, pp. 126 - 137
Semaphorins constitute a family of signaling molecules with functions in axon pathfinding and neuronal migration. Neuropilins 1 and 2 have been identified as... 
Mouse | Neuropilins | Neuromere | Motor neuron | Chick | Semaphorin | Boundary | semaphorin | boundary | neuropilins | FOREBRAIN | PROSOMERIC MODEL | NEUROPILIN-2 | AXON GUIDANCE | neuromere | NEURAL PLATE | EMBRYO HINDBRAIN | NEUROSCIENCES | chick | mouse | DIENCEPHALON | INITIAL TRACT FORMATION | motor neuron | III COLLAPSIN-1 | GENE-EXPRESSION | Neuropilin-1 - genetics | Brain - embryology | Motor Neurons - physiology | Axons - physiology | Chick Embryo | Animals | Gene Expression Regulation, Developmental | Neuropilin-2 - genetics | Neurons - physiology | Mice | Semaphorins - genetics | Rhombencephalon - embryology | Semaphorin-3A - genetics | Brain | Embryonic development | Neurons | Analysis
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7. Full Text Expression of cadherin‐11 delineates boundaries, neuromeres, and nuclei in the developing mouse brain
by Kimura, Yoshishige and Matsunami, Hiroaki and Takeichi, Masatoshi
Developmental Dynamics, ISSN 1058-8388, 08/1996, Volume 206, Issue 4, pp. 455 - 462
Cadherin‐11 (cad11 or OB‐cadherin) was previously identified as a mesenchymal cell‐cell adhesion molecule. Here we studied the expression of cad11 transcripts... 
Brain nucleus | Segment boundary | Mouse | Cadherin | Neuromere
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8. Full Text FGF8 induces formation of an ectopic isthmic organizer and isthmocerebellar development via a repressive effect on Otx2 expression
by S. Martinez and P.H. Crossley and I. Cobos and J.L. Rubenstein and G.R. Martin
Development, ISSN 0950-1991, 03/1999, Volume 126, Issue 6, pp. 1189 - 1200
Beads containing recombinant FGF8 (FGF8-beads) were implanted in the prospective caudal diencephalon or midbrain of chick embryos at stages 9–12. This... 
Cerebellum | Fgf8 | Isthmic organizer | Mid/hindbrain organizer | En1 | Midbrain | Neuromere boundaries | Otx2 | Brain patterning | Wnt1 | brain patterning | isthmic organizer | midbrain | mid/hindbrain organizer | MOUSE | ENGRAILED GENES | DEVELOPMENTAL BIOLOGY | INDUCTION | CHICK-EMBRYO HINDBRAIN | INT-1 PROTOONCOGENE | HOMEOBOX | cerebellum | WNT-1 | neuromere boundaries | CENTRAL-NERVOUS-SYSTEM | MIDBRAIN-HINDBRAIN BOUNDARY | BRAIN | Body Patterning - drug effects | Wnt1 Protein | Homeodomain Proteins - biosynthesis | Cerebellum - drug effects | Zebrafish Proteins | Embryonic Induction | Otx Transcription Factors | Fibroblast Growth Factors - pharmacology | Wnt Proteins | Proto-Oncogene Proteins - biosynthesis | Chick Embryo | Brain Stem - drug effects | Cerebellum - embryology | Morphogenesis | Animals | Mesencephalon - embryology | Gene Expression Regulation, Developmental | Nerve Tissue Proteins - biosynthesis | Brain Stem - embryology | Trans-Activators - biosynthesis | Rhombencephalon - embryology | Fibroblast Growth Factor 8
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9. Full Text Axonal Growth from the Habenular Nucleus along the Neuromere Boundary Region of the Diencephalon Is Regulated by Semaphorin 3F and Netrin-1
by Funato, Hiromasa and Saito-Nakazato, Yuko and Takahashi, Hiroshi
Molecular and Cellular Neuroscience, ISSN 1044-7431, 09/2000, Volume 16, Issue 3, pp. 206 - 220
In neural development, major tracts are often formed along the neuromere boundary regions, although the molecular mechanism underlying this formation remains... 
NEUROPILIN | NERVOUS-SYSTEM | TRACT FORMATION | FLOOR PLATE | COMMISSURAL AXONS | GENE-EXPRESSION | RECEPTOR | EMBRYONIC MOUSE FOREBRAIN | CONE GUIDANCE | NEUROSCIENCES | BRAIN | Nerve Tissue Proteins - physiology | Rats, Wistar | Netrin-1 | Rats | Axons - physiology | Nerve Growth Factors - metabolism | Cell Adhesion Molecules - metabolism | Embryonic and Fetal Development | Embryo, Mammalian - metabolism | Habenula - embryology | Nerve Tissue Proteins - metabolism | Neuropilin-1 | Embryo, Mammalian - physiology | Diencephalon - embryology | Animals | Membrane Proteins - physiology | Membrane Proteins - metabolism | Nerve Growth Factors - physiology | Tumor Suppressor Proteins | habenular nucleus | neuromeres | semaphorins | netrin 1
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10. Full Text Expression of cadherin-11 delineates boundaries, neuromeres, and nuclei in the developing mouse brain
by Kimura, Y and Matsunami, H and Takeichi, M
DEVELOPMENTAL DYNAMICS, ISSN 1058-8388, 08/1996, Volume 206, Issue 4, pp. 455 - 462
Cadherin-11 (cad11 or OB-cadherin) was previously identified as a mesenchymal cell-cell adhesion molecule. Here we studied the expression of cad11 transcripts... 
FOREBRAIN | DIFFERENTIAL EXPRESSION | B-CADHERIN | ANATOMY & MORPHOLOGY | neuromere | cadherin | DEVELOPMENTAL BIOLOGY | segment boundary | FAMILY | ORGANIZATION | mouse | MORPHOGENESIS | CELL-CELL-ADHESION | MOLECULAR-CLONING | brain nucleus | R-CADHERIN | N-CADHERIN | Brain - metabolism | Brain - embryology | Animals | In Situ Hybridization | Gene Expression Regulation, Developmental | Mice | Cadherins - biosynthesis | Embryonic and Fetal Development
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11. Full Text Genoarchitectonic profile of developing nuclear groups in the chicken pretectum
by Ferran, J.L and de Oliveira, E. Dutra and Merchán, P and Sandoval, J.E and Sánchez‐Arrones, L and Martínez‐De‐La‐Torre, M and Puelles, L
Journal of Comparative Neurology, ISSN 0021-9967, 12/2009, Volume 517, Issue 4, pp. 405 - 451
Earlier results on molecularly coded progenitor domains in the chicken pretectum revealed an anteroposterior subdivision of the pretectum in precommissural... 
pretectum | diencephalon | neuronal migration | pretectal nuclei | neuromeres | genoarchitectonics | prosomeres | patterning | neurohistogenesis | Neuronal migration | Patterning | Pretectum | Neuromeres | Pretectal nuclei | Prosomeres | Neurohistogenesis | Diencephalon | Genoarchitectonics | CALCIUM-BINDING PROTEINS | PIGEON COLUMBA-LIVIA | EMBRYONIC ZEBRAFISH FOREBRAIN | NEUROSCIENCES | CHOLINE-ACETYLTRANSFERASE IMMUNOREACTIVITY | LIZARD GALLOTIA-GALLOTI | LATERAL SPIRIFORM NUCLEUS | ZOOLOGY | ACCESSORY OPTIC-SYSTEM | CENTRAL-NERVOUS-SYSTEM | DI-MESENCEPHALIC BOUNDARY | EARLY DIENCEPHALON DEVELOPMENT | Diencephalon - metabolism | Embryonic Development - genetics | Transcription Factors - genetics | Chick Embryo | Nerve Tissue Proteins - genetics | Body Patterning - physiology | Nerve Tissue Proteins - metabolism | Transcription Factors - metabolism | Diencephalon - embryology | Animals | Gene Expression Regulation, Developmental | Neurons - physiology | Diencephalon - cytology
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12. Full Text Regulatory gene expression patterns reveal transverse and longitudinal subdivisions of the embryonic zebrafish forebrain
by Hauptmann, Giselbert and Gerster, Thomas
Mechanisms of Development, ISSN 0925-4773, 2000, Volume 91, Issue 1, pp. 105 - 118
To shed light on the organization of the rostral embryonic brain of a lower vertebrate, we have directly compared the expression patterns of dlx, fgf, hh, hlx,... 
Alar/basal boundary | Roof plate | Floor plate | Alar plate | Neuromere | Basal plate | Forebrain | Diencephalon | Prosomere | Longitudinal brain axis | Two-color whole-mount in situ hybridization | Two- color whole-mount in situ hybridization | prosomere | SEGMENT | floor plate | SONIC HEDGEHOG | MOUSE | IN-SITU HYBRIDIZATION | neuromere | NEURONAL DIFFERENTIATION | DEVELOPMENTAL BIOLOGY | longitudinal brain axis | HOMEOBOX | ORGANIZATION | diencephalon | alar plate | two-color whole-mount in situ hybridization | BOUNDARIES | alar/basal boundary | forebrain | roof plate | basal plate | BRAIN | VERTEBRATE | POU Domain Factors | Paired Box Transcription Factors | Repressor Proteins | Zebrafish Proteins | Otx Transcription Factors | PAX6 Transcription Factor | Transcription Factors - genetics | DNA-Binding Proteins - genetics | Zebrafish - embryology | Nerve Tissue Proteins - genetics | Homeodomain Proteins - genetics | Hedgehog Proteins | Proteins - genetics | Animals | Gene Expression Regulation, Developmental | Body Patterning | Trans-Activators - genetics | Axis, Cervical Vertebra | Prosencephalon - embryology | Eye Proteins | PAX2 Transcription Factor
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13. Full Text Identification and expression of the lamprey Pax6 gene: evolutionary origin of the segmented brain of vertebrates
by Yasunori Murakami and Michio Ogasawara and Fumiaki Sugahara and Shigeki Hirano and Nori Satoh and Shigeru Kuratani
Development, ISSN 0950-1991, 09/2001, Volume 128, Issue 18, pp. 3521 - 3531
The Pax6 gene plays a developmental role in various metazoans as the master regulatory gene for eye patterning. Pax6 is also spatially regulated in particular... 
Forebrain | Embryo | Lamprey | Pax6 | Neuromeres | NERVOUS-SYSTEM | CREST CELLS | embryo | DEVELOPMENTAL BIOLOGY | NEURAL PLATE | PAIRED BOX GENE | lamprey | BODY PLAN | neuromeres | forebrain | LAMPETRA-JAPONICA | MIDBRAIN-HINDBRAIN BOUNDARY | CRANIAL NERVES | DEVELOPMENTAL EXPRESSION | SMALL-EYE | Homeodomain Proteins - isolation & purification | Amino Acid Sequence | Brain - embryology | Lampreys - embryology | Paired Box Transcription Factors | Repressor Proteins | Molecular Sequence Data | Male | PAX6 Transcription Factor | Chordata, Nonvertebrate - embryology | Homeodomain Proteins - genetics | Lampreys - genetics | Biological Evolution | Sequence Homology, Amino Acid | Tissue Distribution | Animals | Gene Expression Regulation, Developmental | Body Patterning | Genes, Regulator | Female | Prosencephalon - embryology | Eye Proteins
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14. Full Text Lhx9: A Novel LIM-Homeodomain Gene Expressed in the Developing Forebrain
by Retaux, Sylvie and Rogard, Monique and Bach, Ingolf and Failli, Vieri and Besson, Marie-Jo
Journal of Neuroscience, ISSN 0270-6474, 01/1999, Volume 19, Issue 2, pp. 783 - 793
A novel LIM-homeodomain gene, Lhx9, was isolated by degenerate RT-PGR followed by mouse embryonic library screening. Lhx9 cDNA encodes a protein that is most... 
LIM-homeodomain | Development | Forebrain | Lhx9 | Lhx2 | Neuromeres | development | DIFFERENTIAL EXPRESSION | MOUSE FOREBRAIN | SUGGESTS | DEVELOPING CEREBRAL-CORTEX | NEUROSCIENCES | HOMEOBOX GENES | ORGANIZATION | BOUNDARIES | PITUITARY | forebrain | neuromeres | C-ELEGANS | PROTEINS | Amino Acid Sequence | Homeodomain Proteins - biosynthesis | Mice, Inbred C57BL | Molecular Sequence Data | Rats | Organ Specificity | Reverse Transcriptase Polymerase Chain Reaction | Chick Embryo | Homeodomain Proteins - genetics | Pregnancy | Animals | In Situ Hybridization | Image Processing, Computer-Assisted | Base Sequence | Female | LIM-Homeodomain Proteins | Mice | Transcription Factors | Prosencephalon - metabolism | Prosencephalon - embryology | Gene Expression Regulation, Developmental - physiology | Neurons and Cognition | Prosencephalon | Life Sciences | Gene Expression Regulation, Developmental | Homeodomain Proteins
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15. Full Text The early embryonic zebrafish forebrain is subdivided into molecularly distinct transverse and longitudinal domains
by Hauptmann, Giselbert and Söll, Iris and Gerster, Thomas
Brain Research Bulletin, ISSN 0361-9230, 2002, Volume 57, Issue 3, pp. 371 - 375
During early developmental stages, the embryonic vertebrate brain is still relatively simple with few morphological landmarks that would indicate subdivisions... 
Alar/basal boundary | Prosomeres | Neuromeres | Diencephalon | Longitudinal brain axis | Danio rerio | HEAD | SONIC HEDGEHOG | longitudinal brain axis | NEUROSCIENCES | DEVELOPING BRAIN | EXPRESSION PATTERNS | ORGANIZATION | diencephalon | alar/basal boundary | neuromeres | prosomeres | PLATE | HOMEOBOX GENE | EMBRYOGENESIS | VERTEBRATE | AXIS | Gene Expression | Animals | Embryo, Nonmammalian - physiology | Prosencephalon - embryology | Zebrafish - embryology | Zebrafish - genetics
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16. Full Text Regionalization of the developing forebrain: a comparison of FORSE-1, Dlx-2, and BF-1
by Tole, S and Patterson, PH
Journal of Neuroscience, ISSN 0270-6474, 02/1995, Volume 15, Issue 2, pp. 970 - 980
The FORSE-1 monoclonal antibody (mAb) was generated using a strategy designed to produce mAbs against neuronal cell surface antigens that might be regulated by... 
diencephalon | forebrain | neuromeres | telence phalon | prosomeres | regionalization | thalamus | FOREBRAIN | SPINAL-CORD | NEUROMERES | HOMEOBOX | NEUROSCIENCES | MOLECULES | ORGANIZATION | PROSOMERES | DIENCEPHALON | FIBROBLAST GROWTH | BOUNDARIES | REGIONALIZATION | THALAMUS | SULFATE | TELENCEPHALON | RESTRICTED EXPRESSION | GENES | EXTRACELLULAR-MATRIX | DNA-Binding Proteins - metabolism | Nerve Tissue Proteins - metabolism | Tissue Distribution | Transcription Factors - metabolism | Animals | Antigens, Surface - metabolism | Proteoglycans - metabolism | Rats | Antibodies, Monoclonal - metabolism | Prosencephalon - embryology | Embryonic and Fetal Development | Forkhead Transcription Factors
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17. Full Text The Timing and Sequence of Appearance of Neuromeres and Their Derivatives in Staged Human Embryos
by Müller, F and O'Rahilly, R
Cells Tissues Organs, ISSN 1422-6405, 1997, Volume 158, Issue 2, pp. 83 - 99
Serial sections of 215 human embryos from Carnegie stages 6–17 were investigated, and 85 graphic reconstructions were prepared. It is proposed that neuromeres... 
Original Paper | Rhombomeres | Brain | Sulcus limitans | Prosomeres | Neuromeres | sulcus limitans | ORGANIZATION | rhombomeres | FOREBRAIN | BOUNDARIES | PATTERN | ANATOMY & MORPHOLOGY | GENE-EXPRESSION | SEGMENTATION | neuromeres | prosomeres | brain | Cricetinae | Animals | Mesencephalon - embryology | Anatomy, Comparative | Macaca mulatta - embryology | Humans | Prosencephalon - embryology | Cricetulus - embryology | Embryonic and Fetal Development | Rhombencephalon - embryology
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18. Neuromeric organization of the midbrain-hindbrain boundary region in zebrafish
by Langenberg, Tobias
The neuromeric concept of brain formation has become a well-established model to explain how order is created in the developing vertebrate central nervous... 
Grenze | Zellverhalten | Neuromere | Methode | Mittel-Hinterhirn Grenze | lineage restriction | Segment | Organisator | Zebrafisch | segments | Hinterhirn | Neuromerie | ddc:570 | organizer | neuromeres | midbrain-hindbrain boundary |