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评估工程草酸钙晶体形成对植物生长发育的影响,以此作为评估其用于增强植物防御的第一步。

An Assessment of Engineered Calcium Oxalate Crystal Formation on Plant Growth and Development as a Step toward Evaluating Its Use to Enhance Plant Defense.

作者信息

Nakata Paul A

机构信息

USDA/ARS Children's Nutrition Research Center, Department of Pediatrics, Baylor College of Medicine, Houston, TX United States of America.

出版信息

PLoS One. 2015 Oct 30;10(10):e0141982. doi: 10.1371/journal.pone.0141982. eCollection 2015.

DOI:10.1371/journal.pone.0141982
PMID:26517544
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4627732/
Abstract

The establishment of new approaches to control chewing insects has been sought not only for direct use in reducing crop loss but also in managing resistance to the pesticides already in use. Engineered formation of calcium oxalate crystals is a potential strategy that could be developed to fulfill both these needs. As a step toward this development, this study investigates the effects of transforming a non-calcium oxalate crystal accumulating plant, Arabidopsis thaliana, into a crystal accumulating plant. Calcium oxalate crystal accumulating A. thaliana lines were generated by ectopic expression of a single bacterial gene encoding an oxalic acid biosynthetic enzyme. Biochemical and cellular studies suggested that the engineered A. thaliana lines formed crystals of calcium oxalate in a manner similar to naturally occurring crystal accumulating plants. The amount of calcium oxalate accumulated in leaves also reached levels similar to those measured in the leaves of Medicago truncatula in which the crystals are known to play a defensive role. Visual inspection of the different engineered lines, however, suggested a phenotypic consequence on plant growth and development with higher calcium oxalate concentrations. The restoration of a near wild-type plant phenotype through an enzymatic reduction of tissue oxalate supported this observation. Overall, this study is a first to provide initial insight into the potential consequences of engineering calcium oxalate crystal formation in non-crystal accumulating plants.

摘要

人们一直在寻求建立控制咀嚼式昆虫的新方法,这不仅是为了直接减少作物损失,也是为了应对现有杀虫剂的抗药性问题。工程化形成草酸钙晶体是一种有潜力的策略,有望满足这两方面需求。作为朝着这一方向发展的第一步,本研究调查了将一种不积累草酸钙晶体的植物——拟南芥转化为积累晶体植物的效果。通过异位表达一个编码草酸生物合成酶的单一细菌基因,生成了积累草酸钙晶体的拟南芥株系。生化和细胞研究表明,工程化的拟南芥株系形成草酸钙晶体的方式与天然积累晶体的植物相似。叶片中积累的草酸钙量也达到了与已知晶体起防御作用的蒺藜苜蓿叶片中测得的水平相似。然而,对不同工程株系的直观观察表明,草酸钙浓度较高时,对植物生长和发育有表型影响。通过酶促降低组织草酸含量恢复接近野生型的植物表型,支持了这一观察结果。总体而言,本研究首次初步深入了解了在非晶体积累植物中工程化形成草酸钙晶体的潜在后果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f615/4627732/ef5a4d151d03/pone.0141982.g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f615/4627732/81708b9911c4/pone.0141982.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f615/4627732/e8ca644db925/pone.0141982.g003.jpg
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