哪有情可长 (2024-06-30 16:12):
#paper Maize smart-canopy architecture enhances yield at high densities, Nature, 6 June 2024, DOI: 10.1038/s41586-024-07669-6.玉米耐密性是决定玉米单位面积产量的关键因素。该实验室早期发现了一个玉米株型上部叶片夹角紧凑、中下部叶夹角相对展开的自然突变体材料,称为智慧株型,该基因命名为lac1,然后利用图位克隆,发现该基因编码一个类固醇C-22 羟化酶(DWF4),其外显子上一个273bp的转座子插入导致编码蛋白提前终止。利用CRISPR/Cas9基因编辑技术对lac1进行了编辑,纯合敲除系均展现出“上紧下松”智慧株型表型。连续4年在4个地点对lac1突变体、敲除系和F1杂交种进行了不同种植密度的田间产量试验,结果显示在高密度种植条件下,携带lac1突变等位基因的“上紧下松”株型可以显著增加群体中下部冠层透光率、增强穗位叶净光合速率、削弱密植群体的避荫反应,最终促进玉米群体产量显著增加。该实验室前期分子实验验证调控叶夹角的转录因子RAVL1可以激活lac1基因的表达,控制玉米叶环区油菜素内酯的积累,从而影响叶夹角的大小。后续利用遮荫和正常对照发现遮荫后,lac1表达下降,后续研究发现转录因子RAVL1仅能与phyA互作,而不能与phyB互作,随着种植密度增加,红光:远红光的比例(R/FR)降低,促进phyA蛋白积累,phyA与RAVL1互作并促进RAVL1蛋白的降解,从而削弱RAVL1对lac1的激活作用,最终减小高密度条件下的玉米叶夹角。在lac1_突变体中,phyA-RAVL1介导的光信号通路被阻断,从而削弱lac1突变体对遮荫的响应。
IF:50.500Q1 Nature, 2024-Jun-12. DOI: 10.1038/s41586-024-07669-6 PMID: 38866052
Maize smart-canopy architecture enhances yield at high densities
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Abstract:
Increasing planting density is a key strategy to enhance maize yields. An ideotype for dense planting requires a 'smart canopy' with leaf angles at different canopy layers differentially optimized to maximize light interception and photosynthesis, amongst other features. Here, we identified leaf angle architecture of smart canopy 1 (lac1), a natural mutant possessing upright upper leaves, less erect middle leaves and relatively flat lower leaves. lac1 has improved photosynthetic capacity and weakened shade-avoidance responses under dense planting. lac1 encodes a brassinosteroid C-22 hydroxylase that predominantly regulates upper leaf angle. Phytochrome A photoreceptors accumulate in shade and interact with the transcription factor RAVL1 to promote its degradation via the 26S proteasome, thereby attenuating RAVL1 activation of lac1 and reducing brassinosteroid levels. This ultimately decreases upper leaf angle in dense fields. Large-scale field trials demonstrate lac1 boosts maize yields under high densities. To quickly introduce lac1 into breeding germplasm, we transformed a haploid inducer and recovered homozygous lac1 edits from 20 diverse inbred lines. The tested doubled haploids uniformly acquired smart-canopy-like plant architecture. We provide an important target and an accelerated strategy for developing high-density-tolerant cultivars, with lac1 serving as a genetic chassis for further engineering of a smart canopy in maize.
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