玉米节间的基部面积与抗虫性有关吗？

Is the basal area of maize internodes involved in borer resistance?

机构信息

Misión Biológica de Galicia, Spanish National Research Council (CSIC), Apartado 28, 36080 Pontevedra, Spain.

出版信息

BMC Plant Biol. 2011 Oct 14;11:137. doi: 10.1186/1471-2229-11-137.

DOI:10.1186/1471-2229-11-137

PMID:21999882

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3206430/

Abstract

BACKGROUND

To elucidate the role of the length of the internode basal ring (LIBR) in resistance to the Mediterranean corn borer (MCB), we carried out a divergent selection program to modify the LIBR using two maize synthetic varieties (EPS20 and EPS21), each with a different genetic background. We investigated the biochemical mechanisms underlying the relationship between the LIBR and borer resistance. Selection to lengthen or shorten the LIBR was achieved for each synthetic variety. The resulting plants were analyzed to determine their LIBR response, growth, yield, and borer resistance.

RESULTS

In the synthetic variety EPS20 (Reid germplasm), reduction of the LIBR improved resistance against the MCB. The LIBR selection was also effective in the synthetic variety EPS21 (non-Reid germplasm), although there was no relationship detected between the LIBR and MCB resistance. The LIBR did not show correlations with agronomic traits such as plant height and yield. Compared with upper sections, the internode basal ring area contained lower concentrations of cell wall components such as acid detergent fiber (ADF), acid detergent lignin (ADL), and diferulates. In addition, some residual 2,4-dihydroxy-7-methoxy-(2H)-1,4-benzoxazin-3-(4H)-one (DIMBOA), a natural antibiotic compound, was detected in the basal area at 30 days after silking.

CONCLUSION

We analyzed maize selections to determine whether the basal area of maize internodes is involved in borer resistance. The structural reinforcement of the cell walls was the most significant trait in the relationship between the LIBR and borer resistance. Lower contents of ADF and ADL in the rind of the basal section facilitated the entry of larvae in this area in both synthetic varieties, while lower concentrations of diferulates in the pith basal section of EPS20 facilitated larval feeding inside the stem. The higher concentrations of DIMBOA may have contributed to the lack of correlation between the LIBR and borer resistance in EPS21. This novel trait could be useful in maize breeding programs to improve borer resistance.

摘要

背景

为了阐明节间基部环（LIBR）长度在抗地中海玉米螟（MCB）中的作用，我们使用两种玉米合成品种（EPS20 和 EPS21）进行了发散选择计划来改变 LIBR，每个品种都具有不同的遗传背景。我们研究了 LIBR 与抗虫性之间关系的生化机制。对每个合成品种进行了延长或缩短 LIBR 的选择。对所得植物进行分析，以确定它们的 LIBR 反应、生长、产量和抗虫性。

结果

在合成品种 EPS20（里德种质）中，缩短 LIBR 可提高对 MCB 的抗性。LIBR 选择在合成品种 EPS21（非里德种质）中也有效，尽管未检测到 LIBR 与 MCB 抗性之间存在关系。LIBR 与株高和产量等农艺性状之间没有相关性。与上部节段相比，节间基部环区的细胞壁成分（如酸性洗涤剂纤维（ADF）、酸性洗涤剂木质素（ADL）和 diferulates）浓度较低。此外，在授粉后 30 天，在基部区域检测到一些残留的 2,4-二羟基-7-甲氧基-（2H）-1,4-苯并恶嗪-3-（4H）-酮（DIMBOA），一种天然抗生素化合物。

结论

我们分析了玉米选择，以确定玉米节间基部区域是否参与抗虫性。细胞壁的结构加固是 LIBR 与抗虫性之间关系的最重要特征。基部区域rind 中 ADF 和 ADL 的含量较低，有利于幼虫进入该区域，而 EPS20 髓质基部区域 diferulates 的浓度较低，有利于幼虫在茎内取食。较高浓度的 DIMBOA 可能导致 EPS21 中 LIBR 与抗虫性之间缺乏相关性。这种新特性可能有助于玉米抗虫性的改良。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f6d/3206430/70d0673004e1/1471-2229-11-137-1.jpg

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玉米节间的基部面积与抗虫性有关吗？

Is the basal area of maize internodes involved in borer resistance?

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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