Interplay between intercellular signaling and cell movement in development

Cell movement and local intercellular signaling are crucial components of morphogenesis during animal development. Intercellular signaling regulates the collective movement of a cell population via direct cell-cell contact. Cell movement, conversely, can influence local intercellular signaling by re...

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Guardado en:
Detalles Bibliográficos
Publicado: 2014
Materias:
Cell movement
Convergent extension
Intercellular signaling
Neural crest migration
Segmentation clock
Vertebrate axis elongation
cell migration
cell motion
cell surface
cell synchronization
embryo development
intracellular signaling
molecular clock
morphogenesis
neural crest
neural crest cell
nonhuman
Review
theoretical study
zebra fish
animal
biological model
cell differentiation
cytology
embryology
extracellular space
physiology
signal transduction
Animals
Body Patterning
Cell Differentiation
Cell Movement
Embryonic Development
Extracellular Space
Models, Biological
Neural Crest
Signal Transduction
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10849521_v35_n_p66_Uriu
http://hdl.handle.net/20.500.12110/paper_10849521_v35_n_p66_Uriu
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_10849521_v35_n_p66_Uriu
record_format dspace
spelling paper:paper_10849521_v35_n_p66_Uriu2023-06-08T16:06:03Z Interplay between intercellular signaling and cell movement in development Cell movement Convergent extension Intercellular signaling Neural crest migration Segmentation clock Vertebrate axis elongation cell migration cell motion cell surface cell synchronization embryo development intracellular signaling molecular clock morphogenesis neural crest neural crest cell nonhuman Review theoretical study zebra fish animal biological model cell differentiation cell motion cytology embryo development embryology extracellular space morphogenesis physiology signal transduction Animals Body Patterning Cell Differentiation Cell Movement Embryonic Development Extracellular Space Models, Biological Neural Crest Signal Transduction Cell movement and local intercellular signaling are crucial components of morphogenesis during animal development. Intercellular signaling regulates the collective movement of a cell population via direct cell-cell contact. Cell movement, conversely, can influence local intercellular signaling by rearranging neighboring cells. Here, we first discuss theoretical models that address how intercellular signaling regulates collective cell movement during development. Examples include neural crest cell migration, convergent extension, and cell movement during vertebrate axis elongation. Second, we review theoretical studies on how cell movement may affect intercellular signaling, using the segmentation clock in zebrafish as an example. We propose that interplay between cell movement and intercellular signaling must be considered when studying morphogenesis in embryonic development. © 2014 Elsevier Ltd. 2014 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10849521_v35_n_p66_Uriu http://hdl.handle.net/20.500.12110/paper_10849521_v35_n_p66_Uriu
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Cell movement
Convergent extension
Intercellular signaling
Neural crest migration
Segmentation clock
Vertebrate axis elongation
cell migration
cell motion
cell surface
cell synchronization
embryo development
intracellular signaling
molecular clock
morphogenesis
neural crest
neural crest cell
nonhuman
Review
theoretical study
zebra fish
animal
biological model
cell differentiation
cell motion
cytology
embryo development
embryology
extracellular space
morphogenesis
physiology
signal transduction
Animals
Body Patterning
Cell Differentiation
Cell Movement
Embryonic Development
Extracellular Space
Models, Biological
Neural Crest
Signal Transduction
spellingShingle Cell movement
Convergent extension
Intercellular signaling
Neural crest migration
Segmentation clock
Vertebrate axis elongation
cell migration
cell motion
cell surface
cell synchronization
embryo development
intracellular signaling
molecular clock
morphogenesis
neural crest
neural crest cell
nonhuman
Review
theoretical study
zebra fish
animal
biological model
cell differentiation
cell motion
cytology
embryo development
embryology
extracellular space
morphogenesis
physiology
signal transduction
Animals
Body Patterning
Cell Differentiation
Cell Movement
Embryonic Development
Extracellular Space
Models, Biological
Neural Crest
Signal Transduction
Interplay between intercellular signaling and cell movement in development
topic_facet Cell movement
Convergent extension
Intercellular signaling
Neural crest migration
Segmentation clock
Vertebrate axis elongation
cell migration
cell motion
cell surface
cell synchronization
embryo development
intracellular signaling
molecular clock
morphogenesis
neural crest
neural crest cell
nonhuman
Review
theoretical study
zebra fish
animal
biological model
cell differentiation
cell motion
cytology
embryo development
embryology
extracellular space
morphogenesis
physiology
signal transduction
Animals
Body Patterning
Cell Differentiation
Cell Movement
Embryonic Development
Extracellular Space
Models, Biological
Neural Crest
Signal Transduction
description Cell movement and local intercellular signaling are crucial components of morphogenesis during animal development. Intercellular signaling regulates the collective movement of a cell population via direct cell-cell contact. Cell movement, conversely, can influence local intercellular signaling by rearranging neighboring cells. Here, we first discuss theoretical models that address how intercellular signaling regulates collective cell movement during development. Examples include neural crest cell migration, convergent extension, and cell movement during vertebrate axis elongation. Second, we review theoretical studies on how cell movement may affect intercellular signaling, using the segmentation clock in zebrafish as an example. We propose that interplay between cell movement and intercellular signaling must be considered when studying morphogenesis in embryonic development. © 2014 Elsevier Ltd.
title Interplay between intercellular signaling and cell movement in development
title_short Interplay between intercellular signaling and cell movement in development
title_full Interplay between intercellular signaling and cell movement in development
title_fullStr Interplay between intercellular signaling and cell movement in development
title_full_unstemmed Interplay between intercellular signaling and cell movement in development
title_sort interplay between intercellular signaling and cell movement in development
publishDate 2014
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_10849521_v35_n_p66_Uriu
http://hdl.handle.net/20.500.12110/paper_10849521_v35_n_p66_Uriu
_version_ 1768545340683714560

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