Mechanistic dissection of plant embryo initiation

Mechanistic dissection of plant embryo initiation

Land plants can reproduce sexually by developing an embryo from a fertilized egg cell, the zygote. After fertilization, the zygote undergoes several rounds of controlled cell divisions to generate a mature embryo. However, embryo formation can also be induced in a variety of other cell types in many plant species. These non-zygotic embryos go through analogous developmental phases and are morphologically similar to the zygotic embryo. Despite its fundamental importance and enormous application potential, the mechanisms that alter cell fate from non-embryonic to embryonic are elusive. In the past decades, a variety of different model systems have been used to identify regulators of embryo induction, but it is unclear if these act in a common network. We recently found that inhibition of auxin response in the extra-embryonic suspensor cells cell-autonomously and predictably triggers a switch towards embryo identity. In my thesis I have used the suspensor-derived embryogenesis as a uniform model system to study the crucial first reprogramming step of embryo initiation process. Through genome-wide transcriptional profiling upon local (suspensor-specific) auxin response inhibition (Chapter 2) and through testing the ability of fifteen known embryogenesis inducers to promote embryo formation in suspensor cells (Chapter 3), we suggest that suspensor to embryo transformation requires a defined set of genetic regulators. The results obtained in my thesis provide essential tools and basis for further research and are a step forward to understanding the first step of embryo initiation process and to unravel the mystery of totipotency in plants.

Saved in:
Bibliographic Details
Main Author: Radoeva, T.M.
Other Authors: Weijers, Dolf
Format: Doctoral thesis biblioteca
Language:English
Published: Wageningen University
Subjects:arabidopsis, auxins, cell suspensions, embryogenesis, embryos, genes, genomics, in vivo experimentation, monozygotic twins, plants, zygotes, auxinen, celsuspensies, embryo's, embryogenese, genen, genomica, in vivo experimenten, monozygote tweelingen, planten, zygoten,
Online Access:https://research.wur.nl/en/publications/mechanistic-dissection-of-plant-embryo-initiation
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-wur-nl-wurpubs-505173
record_format koha
spelling dig-wur-nl-wurpubs-5051732024-06-25 Radoeva, T.M. Weijers, Dolf de Vries, Sacco Doctoral thesis Mechanistic dissection of plant embryo initiation 2016 Land plants can reproduce sexually by developing an embryo from a fertilized egg cell, the zygote. After fertilization, the zygote undergoes several rounds of controlled cell divisions to generate a mature embryo. However, embryo formation can also be induced in a variety of other cell types in many plant species. These non-zygotic embryos go through analogous developmental phases and are morphologically similar to the zygotic embryo. Despite its fundamental importance and enormous application potential, the mechanisms that alter cell fate from non-embryonic to embryonic are elusive. In the past decades, a variety of different model systems have been used to identify regulators of embryo induction, but it is unclear if these act in a common network. We recently found that inhibition of auxin response in the extra-embryonic suspensor cells cell-autonomously and predictably triggers a switch towards embryo identity. In my thesis I have used the suspensor-derived embryogenesis as a uniform model system to study the crucial first reprogramming step of embryo initiation process. Through genome-wide transcriptional profiling upon local (suspensor-specific) auxin response inhibition (Chapter 2) and through testing the ability of fifteen known embryogenesis inducers to promote embryo formation in suspensor cells (Chapter 3), we suggest that suspensor to embryo transformation requires a defined set of genetic regulators. The results obtained in my thesis provide essential tools and basis for further research and are a step forward to understanding the first step of embryo initiation process and to unravel the mystery of totipotency in plants. en Wageningen University application/pdf https://research.wur.nl/en/publications/mechanistic-dissection-of-plant-embryo-initiation 10.18174/380679 https://edepot.wur.nl/380679 arabidopsis auxins cell suspensions embryogenesis embryos genes genomics in vivo experimentation monozygotic twins plants zygotes arabidopsis auxinen celsuspensies embryo's embryogenese genen genomica in vivo experimenten monozygote tweelingen planten zygoten Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic arabidopsis
auxins
cell suspensions
embryogenesis
embryos
genes
genomics
in vivo experimentation
monozygotic twins
plants
zygotes
arabidopsis
auxinen
celsuspensies
embryo's
embryogenese
genen
genomica
in vivo experimenten
monozygote tweelingen
planten
zygoten
arabidopsis
auxins
cell suspensions
embryogenesis
embryos
genes
genomics
in vivo experimentation
monozygotic twins
plants
zygotes
arabidopsis
auxinen
celsuspensies
embryo's
embryogenese
genen
genomica
in vivo experimenten
monozygote tweelingen
planten
zygoten
spellingShingle arabidopsis
auxins
cell suspensions
embryogenesis
embryos
genes
genomics
in vivo experimentation
monozygotic twins
plants
zygotes
arabidopsis
auxinen
celsuspensies
embryo's
embryogenese
genen
genomica
in vivo experimenten
monozygote tweelingen
planten
zygoten
arabidopsis
auxins
cell suspensions
embryogenesis
embryos
genes
genomics
in vivo experimentation
monozygotic twins
plants
zygotes
arabidopsis
auxinen
celsuspensies
embryo's
embryogenese
genen
genomica
in vivo experimenten
monozygote tweelingen
planten
zygoten
Radoeva, T.M.
Mechanistic dissection of plant embryo initiation
description Land plants can reproduce sexually by developing an embryo from a fertilized egg cell, the zygote. After fertilization, the zygote undergoes several rounds of controlled cell divisions to generate a mature embryo. However, embryo formation can also be induced in a variety of other cell types in many plant species. These non-zygotic embryos go through analogous developmental phases and are morphologically similar to the zygotic embryo. Despite its fundamental importance and enormous application potential, the mechanisms that alter cell fate from non-embryonic to embryonic are elusive. In the past decades, a variety of different model systems have been used to identify regulators of embryo induction, but it is unclear if these act in a common network. We recently found that inhibition of auxin response in the extra-embryonic suspensor cells cell-autonomously and predictably triggers a switch towards embryo identity. In my thesis I have used the suspensor-derived embryogenesis as a uniform model system to study the crucial first reprogramming step of embryo initiation process. Through genome-wide transcriptional profiling upon local (suspensor-specific) auxin response inhibition (Chapter 2) and through testing the ability of fifteen known embryogenesis inducers to promote embryo formation in suspensor cells (Chapter 3), we suggest that suspensor to embryo transformation requires a defined set of genetic regulators. The results obtained in my thesis provide essential tools and basis for further research and are a step forward to understanding the first step of embryo initiation process and to unravel the mystery of totipotency in plants.
author2 Weijers, Dolf
author_facet Weijers, Dolf
Radoeva, T.M.
format Doctoral thesis
topic_facet arabidopsis
auxins
cell suspensions
embryogenesis
embryos
genes
genomics
in vivo experimentation
monozygotic twins
plants
zygotes
arabidopsis
auxinen
celsuspensies
embryo's
embryogenese
genen
genomica
in vivo experimenten
monozygote tweelingen
planten
zygoten
author Radoeva, T.M.
author_sort Radoeva, T.M.
title Mechanistic dissection of plant embryo initiation
title_short Mechanistic dissection of plant embryo initiation
title_full Mechanistic dissection of plant embryo initiation
title_fullStr Mechanistic dissection of plant embryo initiation
title_full_unstemmed Mechanistic dissection of plant embryo initiation
title_sort mechanistic dissection of plant embryo initiation
publisher Wageningen University
url https://research.wur.nl/en/publications/mechanistic-dissection-of-plant-embryo-initiation
work_keys_str_mv AT radoevatm mechanisticdissectionofplantembryoinitiation
_version_ 1813199871846383616

Similar Items