Integration of epigenetic and genetic controls of seed size by cytokinin in
            <i>Arabidopsis</i>

Li, Jing; Nie, Xin; Tan, Jeanie Li Hui; Berger, Frédéric

doi:10.1073/pnas.1305175110

Cited by 106 publications

(96 citation statements)

References 62 publications

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“…In the LCM dataset, however, all four genes were called present and at least weakly expressed within the suspensor. We also compared the different suspensor data sets for presence of previously described endosperm-specific genes (Kinoshita et al, 1999(Kinoshita et al, , 2004Luo et al, 2000;Kang et al, 2008;Li et al, 2013;Barthole et al, 2014). The LCM results show all six genes tested as present, whereas our data indicate that only two out of six are also at least weakly expressed in the suspensor (supplementary material Table S10) and those two were also detected in a RNA-seq transcriptome analysis (Nodine and Bartel, 2012).…”

Section: Nuclear Transcriptomic Data As Proxy For Gene Expression Promentioning

confidence: 81%

Cell type-specific transcriptome analysis in the early Arabidopsis thaliana embryo

et al. 2014

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In multicellular organisms, cellular differences in gene activity are a prerequisite for differentiation and establishment of cell types. In order to study transcriptome profiles, specific cell types have to be isolated from a given tissue or even the whole organism. However, wholetranscriptome analysis of early embryos in flowering plants has been hampered by their size and inaccessibility. Here, we describe the purification of nuclear RNA from early stage Arabidopsis thaliana embryos using fluorescence-activated nuclear sorting (FANS) to generate expression profiles of early stages of the whole embryo, the proembryo and the suspensor. We validated our datasets of differentially expressed candidate genes by promoter-reporter gene fusions and in situ hybridization. Our study revealed that different classes of genes with respect to biological processes and molecular functions are preferentially expressed either in the proembryo or in the suspensor. This method can be used especially for tissues with a limited cell population and inaccessible tissue types. Furthermore, we provide a valuable resource for research on Arabidopsis early embryogenesis.

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Section: Nuclear Transcriptomic Data As Proxy For Gene Expression Promentioning

confidence: 81%

Cell type-specific transcriptome analysis in the early Arabidopsis thaliana embryo

et al. 2014

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“…Seed formation requires extensive intergenerational and intertissue communication and coordination (Garcia et al, 2005;Ingouff et al, 2006;Ingram, 2010;Li et al, 2013;Xu et al, 2016). Angiosperm seeds consist of three genetically distinct entities: the diploid embryo, with one paternal and one maternal genome; the triploid endosperm, with two maternal and one paternal genome; and the protective integuments/seed coat, consisting of diploid maternal tissue from the previous generation (Fig.…”

Section: A Brief Primer On Endosperm Development and Functionmentioning

confidence: 99%

Endosperm and Imprinting, Inextricably Linked

2016

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“…Perturbation of the machinery that contributes to gene expression in the endosperm can lead to alterations in seed size (Xiao et al 2006;Kradolfer et al 2013;Li et al 2013). To quantify the effect of PKL and/or PKR2 on seed size, we scored the mean seed areas of WT, pkl, pkr2, and pkl pkr2 seeds as described previously (Herridge et al 2011).…”

Section: Pkl and Pkr2 Antagonistically Influence Seed Sizementioning

confidence: 99%

“…However, we found no evidence of differences in embryo development or seed set in pkl pkr2 plants relative to pkl plants ( Figure S5 and Table S6). Thus, rather than observing phenotypic enhancement by the loss of both paralogs, our data indicated that these traits are not PKR2 dependent.Perturbation of the machinery that contributes to gene expression in the endosperm can lead to alterations in seed size (Xiao et al 2006;Kradolfer et al 2013;Li et al 2013). To quantify the effect of PKL and/or PKR2 on seed size, we scored the mean seed areas of WT, pkl, pkr2, and pkl pkr2 seeds as described previously (Herridge et al 2011).…”

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Cross-Talk Between Sporophyte and Gametophyte Generations Is Promoted by CHD3 Chromatin Remodelers inArabidopsis thaliana

et al. 2016

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Angiosperm reproduction requires the integrated development of multiple tissues with different genotypes. To achieve successful fertilization, the haploid female gametophytes and diploid ovary must coordinate their development, after which the male gametes must navigate through the maternal sporophytic tissues to reach the female gametes. After fertilization, seed development requires coordinated development of the maternal diploid integuments, the triploid endosperm, and the diploid zygote. Transcription and signaling factors contribute to communication between these tissues, and roles for epigenetic regulation have been described for some of these processes. Here we identify a broad role for CHD3 chromatin remodelers in Arabidopsis thaliana reproductive development. Plants lacking the CHD3 remodeler, PICKLE, exhibit various reproductive defects including abnormal development of the integuments, female gametophyte, and pollen tube, as well as delayed progression of ovule and embryo development. Genetic analyses demonstrate that these phenotypes result from loss of PICKLE in the maternal sporophyte. The paralogous gene PICKLE RELATED 2 is preferentially expressed in the endosperm and acts antagonistically with respect to PICKLE in the seed: loss of PICKLE RELATED 2 suppresses the large seed phenotype of pickle seeds. Surprisingly, the alteration of seed size in pickle plants is sufficient to determine the expression of embryonic traits in the seedling primary root. These findings establish an important role for CHD3 remodelers in plant reproduction and highlight how the epigenetic status of one tissue can impact the development of genetically distinct tissues. KEYWORDS PICKLE; PKR2; ovule; pollen tube; seed size D EVELOPMENT in multicellular organisms requires coordinated morphogenesis and communication between tissues with distinct gene expression profiles and occasionally distinct genotypes. Mutations in epigenetic regulators can perturb mutually dependent cell types and therefore complicate interpretation of the resulting phenotypes. The reproductive system of flowering plants presents an attractive context in which to distinguish autonomous phenotypes from those arising from defects in ancillary tissues. The haploid male and female gametophyte generation is contained within the diploid sporophyte, and development of these genetically distinct tissues is highly interdependent (Ma and Sundaresan 2010;Niklas and Kutschera 2010). The female gametophyte develops within the sporophytic ovary, where it forms into an embryo sac as it is surrounded by the diploid sporophytic integuments of the ovule (Bencivenga et al. 2011;Chevalier et al. 2011). Characterization of ovule-defective mutants in Arabidopsis thaliana has revealed that female gametophyte development is dependent on the sporophyte, particularly integument development, and has also identified a variety of factors that contribute to this relationship including transcription factors, kinases, and components of plant hormone signal transduction pathwa...

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Integration of epigenetic and genetic controls of seed size by cytokinin in Arabidopsis

Cited by 106 publications

References 62 publications

Cell type-specific transcriptome analysis in the early Arabidopsis thaliana embryo

Cell type-specific transcriptome analysis in the early Arabidopsis thaliana embryo

Endosperm and Imprinting, Inextricably Linked

Cross-Talk Between Sporophyte and Gametophyte Generations Is Promoted by CHD3 Chromatin Remodelers inArabidopsis thaliana

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