Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock

The segmentation clock is an oscillating genetic network thought to govern the rhythmic and sequential subdivision of the elongating body axis of the vertebrate embryo into somites: the precursors of the segmented vertebral column. Understanding how the rhythmic signal arises, how it achieves precis...

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Detalles Bibliográficos
Autores principales: Oates, A.C., Morelli, L.G., Ares, S.
Formato: JOUR
Materias:
Gradient
Modeling
Negative feedback
Oscillator
Signaling
Somitogenesis
Notch receptor
Wnt protein
anatomy
biological rhythm
cell cycle arrest
cell synchronization
embryo segmentation
gene expression
gene mutation
mathematical model
molecular dynamics
molecular genetics
molecular mechanics
nonhuman
oscillation
periodicity
priority journal
review
signal transduction
somite
steady state
Animals
Biological Clocks
Biological Evolution
Body Patterning
CLOCK Proteins
Embryonic Development
Gene Expression Regulation, Developmental
Models, Theoretical
Receptors, Notch
Receptors, Opioid, delta
Signal Transduction
Somites
Vertebrates
Wnt Proteins
Vertebrata
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_09501991_v139_n4_p625_Oates
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_09501991_v139_n4_p625_Oates
record_format dspace
spelling todo:paper_09501991_v139_n4_p625_Oates2023-10-03T15:49:58Z Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock Oates, A.C. Morelli, L.G. Ares, S. Gradient Modeling Negative feedback Oscillator Signaling Somitogenesis Notch receptor Wnt protein anatomy biological rhythm cell cycle arrest cell synchronization embryo segmentation gene expression gene mutation mathematical model molecular dynamics molecular genetics molecular mechanics nonhuman oscillation periodicity priority journal review signal transduction somite steady state Animals Biological Clocks Biological Evolution Body Patterning CLOCK Proteins Embryonic Development Gene Expression Regulation, Developmental Models, Theoretical Receptors, Notch Receptors, Opioid, delta Signal Transduction Somites Vertebrates Wnt Proteins Vertebrata The segmentation clock is an oscillating genetic network thought to govern the rhythmic and sequential subdivision of the elongating body axis of the vertebrate embryo into somites: the precursors of the segmented vertebral column. Understanding how the rhythmic signal arises, how it achieves precision and how it patterns the embryo remain challenging issues. Recent work has provided evidence of how the period of the segmentation clock is regulated and how this affects the anatomy of the embryo. The ongoing development of realtime clock reporters and mathematical models promise novel insight into the dynamic behavior of the clock. © 2012. Published by The Company of Biologists Ltd. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09501991_v139_n4_p625_Oates
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Gradient
Modeling
Negative feedback
Oscillator
Signaling
Somitogenesis
Notch receptor
Wnt protein
anatomy
biological rhythm
cell cycle arrest
cell synchronization
embryo segmentation
gene expression
gene mutation
mathematical model
molecular dynamics
molecular genetics
molecular mechanics
nonhuman
oscillation
periodicity
priority journal
review
signal transduction
somite
steady state
Animals
Biological Clocks
Biological Evolution
Body Patterning
CLOCK Proteins
Embryonic Development
Gene Expression Regulation, Developmental
Models, Theoretical
Receptors, Notch
Receptors, Opioid, delta
Signal Transduction
Somites
Vertebrates
Wnt Proteins
Vertebrata
spellingShingle Gradient
Modeling
Negative feedback
Oscillator
Signaling
Somitogenesis
Notch receptor
Wnt protein
anatomy
biological rhythm
cell cycle arrest
cell synchronization
embryo segmentation
gene expression
gene mutation
mathematical model
molecular dynamics
molecular genetics
molecular mechanics
nonhuman
oscillation
periodicity
priority journal
review
signal transduction
somite
steady state
Animals
Biological Clocks
Biological Evolution
Body Patterning
CLOCK Proteins
Embryonic Development
Gene Expression Regulation, Developmental
Models, Theoretical
Receptors, Notch
Receptors, Opioid, delta
Signal Transduction
Somites
Vertebrates
Wnt Proteins
Vertebrata
Oates, A.C.
Morelli, L.G.
Ares, S.
Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
topic_facet Gradient
Modeling
Negative feedback
Oscillator
Signaling
Somitogenesis
Notch receptor
Wnt protein
anatomy
biological rhythm
cell cycle arrest
cell synchronization
embryo segmentation
gene expression
gene mutation
mathematical model
molecular dynamics
molecular genetics
molecular mechanics
nonhuman
oscillation
periodicity
priority journal
review
signal transduction
somite
steady state
Animals
Biological Clocks
Biological Evolution
Body Patterning
CLOCK Proteins
Embryonic Development
Gene Expression Regulation, Developmental
Models, Theoretical
Receptors, Notch
Receptors, Opioid, delta
Signal Transduction
Somites
Vertebrates
Wnt Proteins
Vertebrata
description The segmentation clock is an oscillating genetic network thought to govern the rhythmic and sequential subdivision of the elongating body axis of the vertebrate embryo into somites: the precursors of the segmented vertebral column. Understanding how the rhythmic signal arises, how it achieves precision and how it patterns the embryo remain challenging issues. Recent work has provided evidence of how the period of the segmentation clock is regulated and how this affects the anatomy of the embryo. The ongoing development of realtime clock reporters and mathematical models promise novel insight into the dynamic behavior of the clock. © 2012. Published by The Company of Biologists Ltd.
format JOUR
author Oates, A.C.
Morelli, L.G.
Ares, S.
author_facet Oates, A.C.
Morelli, L.G.
Ares, S.
author_sort Oates, A.C.
title Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
title_short Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
title_full Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
title_fullStr Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
title_full_unstemmed Patterning embryos with oscillations: Structure, function and dynamics of the vertebrate segmentation clock
title_sort patterning embryos with oscillations: structure, function and dynamics of the vertebrate segmentation clock
url http://hdl.handle.net/20.500.12110/paper_09501991_v139_n4_p625_Oates
work_keys_str_mv AT oatesac patterningembryoswithoscillationsstructurefunctionanddynamicsofthevertebratesegmentationclock
AT morellilg patterningembryoswithoscillationsstructurefunctionanddynamicsofthevertebratesegmentationclock
AT aress patterningembryoswithoscillationsstructurefunctionanddynamicsofthevertebratesegmentationclock
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