Nitrogen Fertilizer Regulated Grain Storage Protein Synthesis and Reduced Chalkiness of Rice Under Actual Field Warming

Wang, Xueqin; Wang, Kailu; Yin, Tongyang; Zhao, Yufei; Liu, Wenzhe; Shen, Yingying; Ding, Yanfeng; Tang, She

doi:10.3389/fpls.2021.715436

Cited by 24 publications

(21 citation statements)

References 50 publications

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“…This might be due to the different timing and management of nitrogen application (Zhu et al, 2016(Zhu et al, , 2017Zhao et al, 2020;Hu et al, 2021;Ning et al, 2021). A slight improvement in appearance quality in lines with highly expressed Wx alleles was observed with increased nitrogen at higher temperatures, which was consistent with a previous report (Wang et al, 2021). However, this decrease in CR and CD was not found at LT (Figures 3D-F, 5B and Table 3), suggesting the pivotal role of HTs and mutual effect among temperature, nitrogen fertilization, and Wx genotype on chalkiness formation.…”

Section: Nitrogen Fertilization and Temperature Affect Quality Differ...supporting

confidence: 90%

“…However, this decrease in CR and CD was not found at LT (Figures 3D-F, 5B and Table 3), suggesting the pivotal role of HTs and mutual effect among temperature, nitrogen fertilization, and Wx genotype on chalkiness formation. It is generally agreed that HT induces the formation of chalky grains and reduces appearance and milling qualities (Counce et al, 2005;Zhang et al, 2016;Wang et al, 2021;. In the present study, we found that both CR and CD were higher under the higher temperature conditions and transparency decreased (Figures 4A,I-K).…”

Section: Nitrogen Fertilization and Temperature Affect Quality Differ...supporting

confidence: 72%

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Effects of Wx Genotype, Nitrogen Fertilization, and Temperature on Rice Grain Quality

Xia

Wang²,

Shi³

et al. 2022

Front. Plant Sci.

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Quality is a complex trait that is not only the key determinant of the market value of the rice grain, but is also a major constraint in rice breeding. It is influenced by both genetic and environmental factors. However, the combined effects of genotypes and environmental factors on rice grain quality remain unclear. In this study, we used a three-factor experimental design to examine the grain quality of different Wx genotypes grown under different nitrogen fertilization and temperature conditions during grain development. We found that the three factors contributed differently to taste, appearance, and nutritional quality. Increased Wx function and nitrogen fertilization significantly reduced eating quality, whereas high temperature (HT) had almost no effect. The main effects of temperature on appearance quality and moderate Wx function at low temperatures (LTs) contributed to better appearance, and higher nitrogen fertilization promoted appearance at HTs. With regard to nutritional quality, Wx alleles promoted amylose content (AC) as well as starch-lipids content (SLC); nitrogen fertilization increased storage protein content (PC); and higher temperature increased lipid content but decreased the PC. This study helps to broaden the understanding of the major factors that affect the quality of rice and provides constructive messages for rice quality improvement and the cultivation of high-quality rice varieties.

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Section: Nitrogen Fertilization and Temperature Affect Quality Differ...supporting

confidence: 90%

Section: Nitrogen Fertilization and Temperature Affect Quality Differ...supporting

confidence: 72%

Effects of Wx Genotype, Nitrogen Fertilization, and Temperature on Rice Grain Quality

Xia

Wang²,

Shi³

et al. 2022

Front. Plant Sci.

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show abstract

“…Whether globulin is involved in the regulation of seed development is still unclear. Previously, it has been reported that protein content is negatively correlated with grain chalkiness [ 21 , 22 , 23 ]. The negative correlation between globulin content and chalkiness was also observed in this study.…”

Section: Discussionmentioning

confidence: 99%

Characteristics of Seed Vigor in Rice Varieties with Different Globulin Accumulations

Peng

Chen

et al. 2022

IJMS

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Seed vigor of rice is an important trait for direct seeding. The objective of this study was to reveal the relationship between globulin and seed vigor, and then to explore a method for evaluating seed vigor. Several rice varieties with different levels of 52 kDa globulin accumulation were used to compare seed vigor under normal and aged conditions. Results showed that varieties with high globulin accumulation obtained significantly higher seed vigor, measured by germination percentage and germination index, compared with those varieties with low globulin accumulation under normal and aged conditions. Meanwhile, a significantly higher accumulation of reactive oxygen species (ROS) was observed in the early germinating seeds of varieties with high globulin accumulation compared to those varieties with low globulin accumulation under normal and aged conditions. Collectively, the globulin content could be applied in the evaluation of seed vigor, which contributes to the selection of rice varieties for direct seeding.

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“…Carbon and nitrogen metabolisms are crucial to both the yield and quality of rice grains, and their products contained in starch and proteins account for nearly 87% of the dry matter in brown rice [16]. Nitrogen is a crucial nutrient, and applying nitrogen fertilizers is an important management factor that affects both grain yield and quality [17][18][19]. However, more than 50% of nitrogen fertilizers applied to the field have not been absorbed and utilized by crops and consequently cause soil acidification and environmental pollution, which seriously threaten humans' health [20].…”

Section: Introductionmentioning

confidence: 99%

Grain Quality Affected by Introducing Photorespiratory Bypasses into Rice

et al. 2022

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Grain quality is a critical component of high-yielding varieties to ensure acceptance by an ever-increasing population and living standards. During the past years, several photorespiration bypasses have been introduced into C3 plants, among which our GOC and GCGT bypasses exhibit increased photosynthesis and yield in rice. However, to the best of our knowledge, there are still no reports referring to effects of the bypasses on grain quality. Thus, the objective of this study is to determine the effect of GOC and GCGT bypasses on grain quality, and the mechanism of how photorespiratory bypasses affect grain quality was also investigated. Compared with the WT of Zhonghua 11, GOC4 and GCGT20 plants had higher nutritional quality and cooking quality as grain protein content was significantly increased by 11.27% and 14.97%, and alkali spreading value was significantly increased by 7.6% and 4.63%, respectively, whereas appearance quality appears to be negatively affected since the chalky rice rate was increased by 32.6% and 68%, respectively. Analyses also demonstrated that the changes in grain quality may result from the increased total nitrogen and constrained carbohydrate transport in the transgenic plants. Altogether, the results not only suggest that the increased photosynthesis and yield by introducing the photorespiratory bypasses can significantly affect grain quality parameters for rice, either positively or negatively, but also imply that the coordination of source–sink transport may play important roles in grain quality formation for high-yielding crops via increased photosynthetic efficiency.

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Nitrogen Fertilizer Regulated Grain Storage Protein Synthesis and Reduced Chalkiness of Rice Under Actual Field Warming

Cited by 24 publications

References 50 publications

Effects of Wx Genotype, Nitrogen Fertilization, and Temperature on Rice Grain Quality

Effects of Wx Genotype, Nitrogen Fertilization, and Temperature on Rice Grain Quality

Characteristics of Seed Vigor in Rice Varieties with Different Globulin Accumulations

Grain Quality Affected by Introducing Photorespiratory Bypasses into Rice

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