Biophysical mechanisms for morphogenetic progressions at the shoot apex

Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that prov...

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Published inDevelopmental Biology Vol. 153; no. 1; pp. 29 - 43
Main Authors Selker, Jeanne M.L., Steucek, Guy L., Green, Paul B.
Format Book Review Journal Article
LanguageEnglish
Published Amsterdam Elsevier Inc 01.09.1992
Elsevier
Subjects
apical meristems
Biological and medical sciences
biophysics
Computer Simulation
embryology
Fundamental and applied biological sciences. Psychology
leaf primordia
mechanics
mechanisms
Morphogenesis
Plant Development
Plant growth. Development of the storage organs
Plant physiology and development
Plants
Plants - embryology
reviews
stems
Vegetative apparatus, growth and morphogenesis. Senescence
Scanning electron microscopy
Developmental biology
Growth
Plant leaf
Biophysics
Review
Imagery
Mechanism
Stem
Morphogenesis
Plant
Ultrastructure
Mechanical characteristic
Spermatophyta
Microstructure
Apex
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Abstract Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that provides information about how and where the primordia are made. Studies of growth at the primordium site indicate the importance of growth parallel to the surface in generating the forces for primordium emergence. The symmetry of the pattern of reinforcement by cellulose microfibrils correlates with the subsequent pattern of primordium production. Finite element models of the apex reveal that lateral bulging of the apex results in a gradient of shear stress, with high shear at the future primordium site. In contrast, tension parallel to the surface is lowest at the primordium site. Response of apical surface tissue to punctures indicates that an existing primordium can exert a pulling force tangential to its base and a compressive force perpendicular to its base. These observations lead to identification of a continuous biophysical cycle for apex morphogenesis, in which most of the steps are direct physical consequences of the previous step. Biophysical processes, subject to input from genetic, hormonal, and environmental sources, are thus involved in the construction and patterning of leaf primordia.
AbstractList Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges for the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that provides information about how and where the primordia are made. Studies of growth at the primordium site indicate the importance of growth parallel to the surface in generating the forces for primordium emergence. The symmetry of the pattern of reinforcement by cellulose microfibrils correlates with the subsequent pattern of primordium production.
Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that provides information about how and where the primordia are made. Studies of growth at the primordium site indicate the importance of growth parallel to the surface in generating the forces for primordium emergence. The symmetry of the pattern of reinforcement by cellulose microfibrils correlates with the subsequent pattern of primordium production. Finite element models of the apex reveal that lateral bulging of the apex results in a gradient of shear stress, with high shear at the future primordium site. In contrast, tension parallel to the surface is lowest at the primordium site. Response of apical surface tissue to punctures indicates that an existing primordium can exert a pulling force tangential to its base and a compressive force perpendicular to its base. These observations lead to identification of a continuous biophysical cycle for apex morphogenesis, in which most of the steps are direct physical consequences of the previous step. Biophysical processes, subject to input from genetic, hormonal, and environmental sources, are thus involved in the construction and patterning of leaf primordia.Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that provides information about how and where the primordia are made. Studies of growth at the primordium site indicate the importance of growth parallel to the surface in generating the forces for primordium emergence. The symmetry of the pattern of reinforcement by cellulose microfibrils correlates with the subsequent pattern of primordium production. Finite element models of the apex reveal that lateral bulging of the apex results in a gradient of shear stress, with high shear at the future primordium site. In contrast, tension parallel to the surface is lowest at the primordium site. Response of apical surface tissue to punctures indicates that an existing primordium can exert a pulling force tangential to its base and a compressive force perpendicular to its base. These observations lead to identification of a continuous biophysical cycle for apex morphogenesis, in which most of the steps are direct physical consequences of the previous step. Biophysical processes, subject to input from genetic, hormonal, and environmental sources, are thus involved in the construction and patterning of leaf primordia.
Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their formation is a biomechanical process. This review first considers hypothetical construction mechanisms and then summarizes research that provides information about how and where the primordia are made. Studies of growth at the primordium site indicate the importance of growth parallel to the surface in generating the forces for primordium emergence. The symmetry of the pattern of reinforcement by cellulose microfibrils correlates with the subsequent pattern of primordium production. Finite element models of the apex reveal that lateral bulging of the apex results in a gradient of shear stress, with high shear at the future primordium site. In contrast, tension parallel to the surface is lowest at the primordium site. Response of apical surface tissue to punctures indicates that an existing primordium can exert a pulling force tangential to its base and a compressive force perpendicular to its base. These observations lead to identification of a continuous biophysical cycle for apex morphogenesis, in which most of the steps are direct physical consequences of the previous step. Biophysical processes, subject to input from genetic, hormonal, and environmental sources, are thus involved in the construction and patterning of leaf primordia.
Author Selker, Jeanne M.L.
Steucek, Guy L.
Green, Paul B.
Author_xml – sequence: 1
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  organization: Institute of Molecular Biology, University of Oregon, Eugene Oregon 97403 USA
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  givenname: Guy L.
  surname: Steucek
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  organization: Department of Biological Sciences, Stanford University, Stanford, California 94305 USA
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Keywords Scanning electron microscopy
Developmental biology
Growth
Plant leaf
Biophysics
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Imagery
Mechanism
Stem
Morphogenesis
Plant
Ultrastructure
Mechanical characteristic
Spermatophyta
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Apex
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Snippet Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges of the shoot apex, a smooth region at the top of the stem. Their...
Leaf primordia, first visible as small bumps, are produced in a cyclical pattern at the edges for the shoot apex, a smooth region at the top of the stem. Their...
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SubjectTerms apical meristems
Biological and medical sciences
biophysics
Computer Simulation
embryology
Fundamental and applied biological sciences. Psychology
leaf primordia
mechanics
mechanisms
Morphogenesis
Plant Development
Plant growth. Development of the storage organs
Plant physiology and development
Plants
Plants - embryology
reviews
stems
Vegetative apparatus, growth and morphogenesis. Senescence
Title Biophysical mechanisms for morphogenetic progressions at the shoot apex
URI https://dx.doi.org/10.1016/0012-1606(92)90089-Y
https://www.ncbi.nlm.nih.gov/pubmed/1516750
https://www.proquest.com/docview/16446770
https://www.proquest.com/docview/48304418
https://www.proquest.com/docview/73155396
Volume 153
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