Tomato PHYTOCHROME B1 mutant responses to drought stress during vegetative and reproductive phases

IF 2.2 3区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
Carlos Alberto Silva-Junior, Frederico Rocha Rodrigues Alves, Luiz Fabiano Palaretti, Reginaldo de Oliveira, Daniel Dalvan Nascimento, Rogério Falleiros Carvalho
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引用次数: 0

Abstract

Water availability is a limiting factor to plant development and productivity. Many drought-induced physiological processes that affect patterns of growth, biomass allocation, and ultimately, yield, are also regulated by the red/far-red photoreceptor phytochromes (PHYs). However, as the mechanisms and responses to drought stress vary among plant developmental phases, it is reasonable to conjecture that PHY-dependent morphophysiological responses to drought may be different according to the plant growth stage. In this study, we submitted tomato phyB1 mutant plants to water deficit in two distinct growth stages, during vegetative and flower-bearing reproductive phases, comparing the morphophysiological development, fruit yield and quality to wild-type (WT). In general, phyB1 plants overcome growth limitations imposed by water availability limitations during vegetative phase, being taller and leafier than WT. Restrictions to growth are less acute for both genotypes when water deficit occurs during reproductive phase compared to vegetative phase. phyB1 yield is lower when water is limited during reproductive phase, but its fruits accumulate more soluble solids, associated with better quality. These results highlight that drought-induced modulations in tomato growth and yield are dependent upon PHYB1 regulation and the developmental phase when water deficit is applied.

Abstract Image

Abstract Image

番茄 PHYTOCHROME B1 突变体在无性和生殖阶段对干旱胁迫的反应
水分供应是植物生长和生产力的限制因素。许多由干旱引起的生理过程会影响植物的生长模式、生物量分配,并最终影响产量,这些生理过程也受到红/远红光感光物质植物色素(PHY)的调控。然而,由于植物不同发育阶段对干旱胁迫的机理和反应各不相同,因此有理由推测,植物不同生长阶段对干旱的形态生理反应也可能不同。在本研究中,我们让番茄phyB1突变体植株在两个不同的生长阶段(植株生长期和开花生殖期)承受水分亏缺,比较其与野生型(WT)植株的形态生理发育、果实产量和质量。一般来说,phyB1 植物能克服无性期水分供应限制带来的生长限制,比 WT 植物更高、更瘦。当生殖期缺水时,两种基因型的生长限制都没有无性期那么严重。phyB1 在生殖期缺水时产量较低,但其果实积累的可溶性固形物较多,质量较好。这些结果突出表明,干旱引起的番茄生长和产量变化取决于 PHYB1 的调控和缺水时的发育阶段。
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来源期刊
Annals of Applied Biology
Annals of Applied Biology 生物-农业综合
CiteScore
5.50
自引率
0.00%
发文量
71
审稿时长
18-36 weeks
期刊介绍: Annals of Applied Biology is an international journal sponsored by the Association of Applied Biologists. The journal publishes original research papers on all aspects of applied research on crop production, crop protection and the cropping ecosystem. The journal is published both online and in six printed issues per year. Annals papers must contribute substantially to the advancement of knowledge and may, among others, encompass the scientific disciplines of: Agronomy Agrometeorology Agrienvironmental sciences Applied genomics Applied metabolomics Applied proteomics Biodiversity Biological control Climate change Crop ecology Entomology Genetic manipulation Molecular biology Mycology Nematology Pests Plant pathology Plant breeding & genetics Plant physiology Post harvest biology Soil science Statistics Virology Weed biology Annals also welcomes reviews of interest in these subject areas. Reviews should be critical surveys of the field and offer new insights. All papers are subject to peer review. Papers must usually contribute substantially to the advancement of knowledge in applied biology but short papers discussing techniques or substantiated results, and reviews of current knowledge of interest to applied biologists will be considered for publication. Papers or reviews must not be offered to any other journal for prior or simultaneous publication and normally average seven printed pages.
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