鞣酸在漆树瘿中积累的分子机制及参与植物-昆虫相互作用的基因。

Molecular mechanisms of tannin accumulation in Rhus galls and genes involved in plant-insect interactions.

机构信息

Research Institute of Resource Insects, Chinese Academy of Forestry, Kunming, China.

The Key Laboratory of Cultivating and Utilization of Resources Insects, State Forestry Administration, Kunming, China.

出版信息

Sci Rep. 2018 Jun 29;8(1):9841. doi: 10.1038/s41598-018-28153-y.

DOI:10.1038/s41598-018-28153-y

PMID:29959354

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6026138/

Abstract

For galling aphids and their hosts, tannins are crucial for plant-insect interactions and for protecting the host plant from herbivory. Due to their peculiar chemical characteristics, tannins from plant galls have been used for medical and chemical purposes for more than 2000 years. In this study, hydrolyzable tannin concentrations in galls increased from gall initiation (38.34% on June 21) to maturation (74.79% on August 8), then decreased gradually thereafter (58.83% on October 12). We identified a total of 81 genes (named as GTS1-81) with putative roles in gallotannin biosynthesis and 22 genes (TS1-22) in condensed tannin biosynthesis. We determined the expression profiles of these genes by real-time PCR over the course of gall development. Multiple genes encoding 1-beta-D-glucosyl transferases were identified, which may play a vital role in gallotannin accumulation in plant galls. This study is the first attempt to examine the molecular basis for the regulation of tannin accumulation in insect gallnuts. The differentially expressed genes we identified may play important roles in both tannin biosynthesis and plant-insect interactions.

摘要

对于令人讨厌的蚜虫及其宿主来说，单宁对于植物-昆虫相互作用以及保护宿主植物免受草食性侵害至关重要。由于其特殊的化学特性，植物瘿中的单宁已被用于医疗和化学用途超过 2000 年。在这项研究中，瘿中可水解单宁的浓度从瘿的起始（6 月 21 日为 38.34%）增加到成熟（8 月 8 日为 74.79%），然后逐渐下降（10 月 12 日为 58.83%）。我们总共鉴定了 81 个与鞣花单宁生物合成有关的基因（命名为 GTS1-81）和 22 个与缩合单宁生物合成有关的基因（TS1-22）。我们通过实时 PCR 测定了这些基因在瘿发育过程中的表达谱。鉴定出了多个编码 1-β-D-葡萄糖基转移酶的基因，它们可能在植物瘿中鞣花单宁的积累中发挥重要作用。这项研究首次尝试研究昆虫瘿中单宁积累的调控分子基础。我们鉴定的差异表达基因可能在单宁生物合成和植物-昆虫相互作用中都发挥重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1e3/6026138/dbe558a10fe2/41598_2018_28153_Fig1_HTML.jpg

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鞣酸在漆树瘿中积累的分子机制及参与植物-昆虫相互作用的基因。

Molecular mechanisms of tannin accumulation in Rhus galls and genes involved in plant-insect interactions.

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