柑橘幼苗对氮缺乏的碳氮代谢适应反应。

Adaptive responses of carbon and nitrogen metabolisms to nitrogen-deficiency in Citrus sinensis seedlings.

机构信息

Department of Resources and Environment, College of Resources and Environment, Fujian Agriculture and Forestry University, 15 Shangxiadian Road, Cangshan District, Fuzhou, 350002, China.

出版信息

BMC Plant Biol. 2022 Jul 26;22(1):370. doi: 10.1186/s12870-022-03759-7.

DOI:10.1186/s12870-022-03759-7

PMID:35879653

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9316421/

Abstract

BACKGROUND

In China, nitrogen (N)-deficiency often occurs in Citrus orchards, which is one of the main causes of yield loss and fruit quality decline. Little information is known about the adaptive responses of Citrus carbon (C) and N metabolisms to N-deficiency. Seedlings of 'Xuegan' (Citrus sinensis (L.) Osbeck) were supplied with nutrient solution at an N concentration of 0 (N-deficiency), 5, 10, 15 or 20 mM for 10 weeks. Thereafter, we examined the effects of N supply on the levels of C and N in roots, stems and leaves, and the levels of organic acids, nonstructural carbohydrates, NH-N, NO-N, total soluble proteins, free amino acids (FAAs) and derivatives (FAADs), and the activities of key enzymes related to N assimilation and organic acid metabolism in roots and leaves.

RESULTS

N-deficiency elevated sucrose export from leaves to roots, C and N distributions in roots and C/N ratio in roots, stems and leaves, thus enhancing root dry weight/shoot dry weight ratio and N use efficiency. N-deficient leaves displayed decreased accumulation of starch and total nonstructural carbohydrates (TNC) and increased sucrose/starch ratio as well as a partitioning trend of assimilated C toward to sucrose, but N-deficient roots displayed elevated accumulation of starch and TNC and reduced sucrose/starch ratio as well as a partitioning trend of assimilated C toward to starch. N-deficiency reduced the concentrations of most FAADs and the ratios of total FAADs (TFAADs)/N in leaves and roots. N-deficiency reduced the demand for C skeleton precursors for amino acid biosynthesis, thus lowering TFAADs/C ratio in leaves and roots. N-deficiency increased (decreased) the relative amounts of C-rich (N-rich) FAADs, thus increasing the molar ratio of C/N in TFAADs in leaves and roots.

CONCLUSIONS

Our findings corroborated our hypothesis that C and N metabolisms displayed adaptive responses to N-deficiency in C. sinensis seedlings, and that some differences existed between roots and leaves in N-deficiency-induced alterations of and C and N metabolisms.

摘要

背景

在中国，柑橘园经常出现氮（N）缺乏，这是产量损失和果实品质下降的主要原因之一。关于柑橘碳（C）和 N 代谢对 N 缺乏的适应反应，知之甚少。用 N 浓度为 0（N 缺乏）、5、10、15 或 20mM 的营养液供应‘血橙’（Citrus sinensis（L.）Osbeck）幼苗 10 周。此后，我们研究了 N 供应对根、茎和叶中 C 和 N 水平、有机酸、非结构性碳水化合物、NH-N、NO-N、总可溶性蛋白质、游离氨基酸（FAAs）及其衍生物（FAADs）水平以及与 N 同化和有机酸酸代谢相关的关键酶活性的影响。

结果

N 缺乏增加了叶片向根的蔗糖输出，根和根、茎和叶中的 C 和 N 分布以及 C/N 比，从而提高了根干重/茎干重比和 N 利用效率。缺氮叶片淀粉和总非结构性碳水化合物（TNC）积累减少，蔗糖/淀粉比增加，同化 C 向蔗糖分配的趋势增强，但缺氮根中淀粉和 TNC 积累增加，蔗糖/淀粉比降低，同化 C 向淀粉分配的趋势增强。N 缺乏降低了叶片和根中大多数 FAADs 的浓度和总 FAADs（TFAADs）/N 的比值。N 缺乏降低了氨基酸生物合成对 C 骨架前体的需求，从而降低了叶片和根中 TFAADs/C 比。N 缺乏增加（减少）了富含 C（富含 N）的 FAADs 的相对含量，从而增加了叶片和根中 TFAADs 的 C/N 摩尔比。

结论

我们的发现证实了我们的假设，即在 C.sinensis 幼苗中，C 和 N 代谢对 N 缺乏表现出适应性反应，并且在 N 缺乏引起的 C 和 N 代谢变化方面，根和叶之间存在一些差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e421/9316421/5722ecd7dbfa/12870_2022_3759_Fig1_HTML.jpg

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柑橘幼苗对氮缺乏的碳氮代谢适应反应。

Adaptive responses of carbon and nitrogen metabolisms to nitrogen-deficiency in Citrus sinensis seedlings.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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