通过在荠蓝中过表达 CsHMA3 来改变叶片形状、提高金属耐受性和种子产量。

Alteration of leaf shape, improved metal tolerance, and productivity of seed by overexpression of CsHMA3 in Camelina sativa.

机构信息

Bioenergy Research Center, Department of Bioenergy Science and Technology, Chonnam National University, Gwangju, Republic of Korea.

出版信息

Biotechnol Biofuels. 2014 Jun 22;7:96. doi: 10.1186/1754-6834-7-96. eCollection 2014.

DOI:10.1186/1754-6834-7-96

PMID:25018780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4094532/

Abstract

BACKGROUND

Camelina sativa (L.) Crantz, known by such popular names as "gold-of-pleasure" and "false flax," is an alternative oilseed crop for biofuel production and can be grown in harsh environments. Considerable interest is now being given to the new concept of the development of a fusion plant which can be used as a soil remediation plant for ground contaminated by heavy metals as well as a bioenergy crop. However, knowledge of the transport processes for heavy metals across Camelina plant membranes is still rudimentary.

RESULTS

Firstly, to investigate whether Camelina HMA (heavy metal P1B-ATPase) genes could be used in such a plant, we analyzed the expression patterns of eight HMA genes in Camelina (taken from the root, leaf, stem, flower, and silique). CsHMA3 genes were expressed in all organs. In addition, CsHMA3 was induced in roots and leaves especially after Pb treatment. Heterogeneous expression of CsHMA3 complemented the Pb- or Zn-sensitive phenotype of Δycf1 or Δzrc1 yeast mutant strains. Subsequently, we cloned and overexpressed CsHMA3 in Camelina. The root growth of transgenic lines was better than that in the wild-type plant under heavy metal stress (for Cd, Pb, and Zn). In particular, the transgenic lines showed enhanced Pb tolerance in a wide range of Pb concentrations. Furthermore, the Pb and Zn content in the shoots of the transgenic lines were higher than those in the wild-type plant. These results suggest that overexpression of CsHMA3 might enhance Pb and Zn tolerance and translocation. Also, the transgenic lines displayed a wider leaf shape compared with the wild-type plant due to an induction of genes related to leaf width growth and showed a greater total seed yield compared to the wild type under heavy metal stress.

CONCLUSIONS

Our data obtained from physiological and functional analyses using CsHMA3 overexpression plants will be useful to develop a multifunctional plant that can improve the productivity of a bioenergy crop and simultaneously be used to purify an area contaminated by various heavy metals.

摘要

背景

荠蓝（L.）Crantz，俗称“金合欢”和“假亚麻”，是一种用于生物燃料生产的替代油籽作物，可在恶劣环境中生长。现在人们对开发融合植物的新概念产生了浓厚的兴趣，这种融合植物可以用作受重金属污染的土壤修复植物以及生物能源作物。然而，对于重金属在荠蓝植物膜中的运输过程的了解仍然很初级。

结果

首先，为了研究荠蓝 HMA（重金属 P1B-ATPase）基因是否可用于此类植物，我们分析了从荠蓝根、叶、茎、花和角果中提取的 8 个 HMA 基因的表达模式。CsHMA3 基因在所有器官中均有表达。此外，CsHMA3 在根和叶中受到诱导，尤其是在 Pb 处理后。CsHMA3 的异源表达补充了Δycf1或Δzrc1酵母突变体的 Pb 或 Zn 敏感性表型。随后，我们在荠蓝中克隆并过表达了 CsHMA3。在重金属胁迫下（对于 Cd、Pb 和 Zn），转基因系的根生长优于野生型植物。特别是，在广泛的 Pb 浓度下，转基因系表现出增强的 Pb 耐受性。此外，转基因系的地上部分 Pb 和 Zn 含量高于野生型植物。这些结果表明，过表达 CsHMA3 可能增强了 Pb 和 Zn 的耐受性和转运。此外，与野生型植物相比，转基因系的叶片形状更宽，这是由于与叶片宽度生长相关的基因的诱导，并且在重金属胁迫下的总种子产量高于野生型。

结论

我们使用 CsHMA3 过表达植物进行生理和功能分析获得的数据将有助于开发一种多功能植物，该植物可以提高生物能源作物的生产力，同时用于净化受各种重金属污染的区域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa1d/4094532/5c074db9a088/1754-6834-7-96-1.jpg

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通过在荠蓝中过表达 CsHMA3 来改变叶片形状、提高金属耐受性和种子产量。

Alteration of leaf shape, improved metal tolerance, and productivity of seed by overexpression of CsHMA3 in Camelina sativa.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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