Phosphorus deficiency promotes root:shoot ratio and carbon accumulation via modulating sucrose utilization in maize
Phosphorus deficiency usually promotes root:shoot ratio and sugar accumulation. However, how the allocation and utilization of carbon assimilates are regulated by phosphorus deficiency remains unclear. To understand how phosphorus deficiency affects the allocation and utilization of carbon assimilat...
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| Published in | Journal of plant physiology Vol. 303; p. 154349 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier GmbH
01.12.2024
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| Abstract | Phosphorus deficiency usually promotes root:shoot ratio and sugar accumulation. However, how the allocation and utilization of carbon assimilates are regulated by phosphorus deficiency remains unclear. To understand how phosphorus deficiency affects the allocation and utilization of carbon assimilates, we systematically investigated the fixation and utilization of carbon, along with its diurnal and spatial patterns, in hydroponically grown maize seedlings under low phosphorus treatment. Under low phosphorus, sucrolytic activity was slightly inhibited by 12.0% in the root but dramatically inhibited by 38.8% in the shoot, corresponding to the promoted hexose/sucrose ratio and biomass in the root. Results point to a stable utilization of sucrose in the root facilitating competition for more assimilates, while increasing root:shoot ratio. Moreover, starch and sucrose accumulated in the leaves under low phosphorus. Spatially, starch and sucrose were oppositely distributed, starch mainly in the leaf tip, and sucrose mainly in the leaf base and sheath. Evidence of sucrose getting stuck in leaf base and sheath suggests that carbon accumulation is not attributed to carbon assimilation or export disturbance, but may be due to poor carbon utilization in the sinks. These findings improve the understanding of how low phosphorus regulates carbon allocation between shoot and root for acclimation to stress, and highlight the importance of improving carbon utilization in sinks to deal with phosphorus deficiency. |
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| AbstractList | Phosphorus deficiency usually promotes root:shoot ratio and sugar accumulation. However, how the allocation and utilization of carbon assimilates are regulated by phosphorus deficiency remains unclear. To understand how phosphorus deficiency affects the allocation and utilization of carbon assimilates, we systematically investigated the fixation and utilization of carbon, along with its diurnal and spatial patterns, in hydroponically grown maize seedlings under low phosphorus treatment. Under low phosphorus, sucrolytic activity was slightly inhibited by 12.0% in the root but dramatically inhibited by 38.8% in the shoot, corresponding to the promoted hexose/sucrose ratio and biomass in the root. Results point to a stable utilization of sucrose in the root facilitating competition for more assimilates, while increasing root:shoot ratio. Moreover, starch and sucrose accumulated in the leaves under low phosphorus. Spatially, starch and sucrose were oppositely distributed, starch mainly in the leaf tip, and sucrose mainly in the leaf base and sheath. Evidence of sucrose getting stuck in leaf base and sheath suggests that carbon accumulation is not attributed to carbon assimilation or export disturbance, but may be due to poor carbon utilization in the sinks. These findings improve the understanding of how low phosphorus regulates carbon allocation between shoot and root for acclimation to stress, and highlight the importance of improving carbon utilization in sinks to deal with phosphorus deficiency. Phosphorus deficiency usually promotes root:shoot ratio and sugar accumulation. However, how the allocation and utilization of carbon assimilates are regulated by phosphorus deficiency remains unclear. To understand how phosphorus deficiency affects the allocation and utilization of carbon assimilates, we systematically investigated the fixation and utilization of carbon, along with its diurnal and spatial patterns, in hydroponically grown maize seedlings under low phosphorus treatment. Under low phosphorus, sucrolytic activity was slightly inhibited by 12.0% in the root but dramatically inhibited by 38.8% in the shoot, corresponding to the promoted hexose/sucrose ratio and biomass in the root. Results point to a stable utilization of sucrose in the root facilitating competition for more assimilates, while increasing root:shoot ratio. Moreover, starch and sucrose accumulated in the leaves under low phosphorus. Spatially, starch and sucrose were oppositely distributed, starch mainly in the leaf tip, and sucrose mainly in the leaf base and sheath. Evidence of sucrose getting stuck in leaf base and sheath suggests that carbon accumulation is not attributed to carbon assimilation or export disturbance, but may be due to poor carbon utilization in the sinks. These findings improve the understanding of how low phosphorus regulates carbon allocation between shoot and root for acclimation to stress, and highlight the importance of improving carbon utilization in sinks to deal with phosphorus deficiency.Phosphorus deficiency usually promotes root:shoot ratio and sugar accumulation. However, how the allocation and utilization of carbon assimilates are regulated by phosphorus deficiency remains unclear. To understand how phosphorus deficiency affects the allocation and utilization of carbon assimilates, we systematically investigated the fixation and utilization of carbon, along with its diurnal and spatial patterns, in hydroponically grown maize seedlings under low phosphorus treatment. Under low phosphorus, sucrolytic activity was slightly inhibited by 12.0% in the root but dramatically inhibited by 38.8% in the shoot, corresponding to the promoted hexose/sucrose ratio and biomass in the root. Results point to a stable utilization of sucrose in the root facilitating competition for more assimilates, while increasing root:shoot ratio. Moreover, starch and sucrose accumulated in the leaves under low phosphorus. Spatially, starch and sucrose were oppositely distributed, starch mainly in the leaf tip, and sucrose mainly in the leaf base and sheath. Evidence of sucrose getting stuck in leaf base and sheath suggests that carbon accumulation is not attributed to carbon assimilation or export disturbance, but may be due to poor carbon utilization in the sinks. These findings improve the understanding of how low phosphorus regulates carbon allocation between shoot and root for acclimation to stress, and highlight the importance of improving carbon utilization in sinks to deal with phosphorus deficiency. |
| ArticleNumber | 154349 |
| Author | Xiao, Zu-Dong Graeff-Hönninger, Simone Munz, Sebastian Wang, Xin Huang, Shou-Bing Liang, Xiao-Gui Zhou, Shun-Li Lin, Yi-Hsuan Shen, Si Chen, Zhen-Yuan |
| Author_xml | – sequence: 1 givenname: Zu-Dong surname: Xiao fullname: Xiao, Zu-Dong organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 2 givenname: Zhen-Yuan surname: Chen fullname: Chen, Zhen-Yuan organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 3 givenname: Yi-Hsuan surname: Lin fullname: Lin, Yi-Hsuan organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 4 givenname: Xiao-Gui surname: Liang fullname: Liang, Xiao-Gui organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 5 givenname: Xin surname: Wang fullname: Wang, Xin organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 6 givenname: Shou-Bing surname: Huang fullname: Huang, Shou-Bing organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 7 givenname: Sebastian surname: Munz fullname: Munz, Sebastian organization: Department of Agronomy, Institute of Crop Science, University of Hohenheim, Stuttgart, 70599, Germany – sequence: 8 givenname: Simone surname: Graeff-Hönninger fullname: Graeff-Hönninger, Simone organization: Department of Agronomy, Institute of Crop Science, University of Hohenheim, Stuttgart, 70599, Germany – sequence: 9 givenname: Si surname: Shen fullname: Shen, Si email: shensi@cau.edu.cn organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China – sequence: 10 givenname: Shun-Li surname: Zhou fullname: Zhou, Shun-Li email: zhoushl@cau.edu.cn organization: State Key Laboratory of Maize Bio-breeding, College of Agronomy & Biotechnology, China Agricultural University, Beijing, 100193, China |
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| Keywords | Maize seedling LP CWIN CK DLP GST CIN Carbon allocation and accumulation P SUS Sink activity Pi Root:shoot ratio VIN Low phosphorus |
| Language | English |
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| SubjectTerms | acclimation biomass carbon Carbon - metabolism Carbon allocation and accumulation carbon dioxide fixation corn exports hydroponics leaves Low phosphorus Maize seedling phosphorus Phosphorus - deficiency Phosphorus - metabolism Plant Leaves - metabolism Plant Roots - growth & development Plant Roots - metabolism Plant Shoots - metabolism Root:shoot ratio Seedlings - growth & development Seedlings - metabolism Sink activity starch Starch - metabolism sucrose Sucrose - metabolism Zea mays - growth & development Zea mays - metabolism |
| Title | Phosphorus deficiency promotes root:shoot ratio and carbon accumulation via modulating sucrose utilization in maize |
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