Fertility loss in senescing Arabidopsis ovules is controlled by the maternal sporophyte via a NAC transcription factor triad
Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As su...
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| Published in | Proceedings of the National Academy of Sciences - PNAS Vol. 120; no. 25; p. e2219868120 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Academy of Sciences
20.06.2023
|
| Subjects | |
| Online Access | Get full text |
| ISSN | 0027-8424 1091-6490 1091-6490 |
| DOI | 10.1073/pnas.2219868120 |
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| Abstract | Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in
Arabidopsis thaliana
undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. |
|---|---|
| AbstractList | Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in Arabidopsis thaliana undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in Arabidopsis thaliana undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte.Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in Arabidopsis thaliana undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. Senescence processes fulfill important functions in multicellular eukaryotes. In plants, leaf senescence optimizes nutrient mobilization, while floral organ senescence determines the time span of fertility, i.e., how long after flower opening pollination and fertilization can take place to produce fruits and seeds. Here, we show that a triad of transcription factors that had been implicated in leaf senescence are controlling fertility duration of ovules, the seed precursors that are formed inside flowers. Our results reveal that the maternal sporophyte controls the fertility of the female gametophytes inside the ovules noncell-autonomously by promoting programmed cell death in ovule integuments. Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in Arabidopsis thaliana undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated flowers remain receptive for mere hours in some species, and up to several weeks in others before flower senescence terminates fertility. As such, floral longevity is a key trait subject to both natural selection and plant breeding. Within the flower, the life span of the ovule containing the female gametophyte is decisive for fertilization and the initiation of seed development. Here, we show that unfertilized ovules in Arabidopsis thaliana undergo a senescence program that generates morphological and molecular hallmarks of canonical programmed cell death processes in the sporophytically derived ovule integuments. Transcriptome profiling of isolated aging ovules revealed substantial transcriptomic reprogramming during ovule senescence, and identified up-regulated transcription factors as candidate regulators of these processes. Combined mutation of three most-up-regulated NAC (NAM, ATAF1/2, and CUC2) transcription factors, NAP/ANAC029, SHYG/ANAC047, and ORE1/ANAC092, caused a substantial delay in ovule senescence and an extension of fertility in Arabidopsis ovules. These results suggest that timing of ovule senescence and duration of gametophyte receptivity are subject to genetic regulation controlled by the maternal sporophyte. |
| Author | Pfeiffer, Marie L. Doll, Nicolas M. De Winter, Freya Van Durme, Matthias Olvera-Carrillo, Yadira Lin, Zongcheng Nowack, Moritz K. |
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| Copyright | Copyright National Academy of Sciences Jun 20, 2023 Copyright © 2023 the Author(s). Published by PNAS. 2023 |
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| Keywords | senescence ovule programmed cell death Arabidopsis female gametophyte |
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| Snippet | Flowers have a species-specific fertile period during which pollination and fertilization have to occur to initiate seed and fruit development. Unpollinated... Senescence processes fulfill important functions in multicellular eukaryotes. In plants, leaf senescence optimizes nutrient mobilization, while floral organ... |
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| SubjectTerms | Aging (natural) Apoptosis Arabidopsis Biological Sciences Cell death Fertility Fertilization Flowers Life span Natural selection Ovule Ovules Plant Breeding Pollination Senescence Transcription Factors Transcriptomes Transcriptomics |
| Title | Fertility loss in senescing Arabidopsis ovules is controlled by the maternal sporophyte via a NAC transcription factor triad |
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