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Revision as of 10:42, 18 September 2015
Team:BNU-CHINA - 2015.igem.org
Project Module
Bait
Limonene
Overview
We transferred plasmids into E. coli BL21 (DE3) to make it express a normally plant-expressed monoterpene: limonene. The engineered E. coli can thus produce limonene. There are researches showing that limonene can be an attractant to nematodes[1][2], so limonene is used to attract plant parasitic nematodes in our project.
Structure
Terpenoids, which has more than forty thousand kinds of chemicals, is the largest family of natural products[3]. Limonene is a kind of valuable terpenoids (isoprenoid) normally expressed in plants, especially in citrus and mentha plants. It has two enantiomers in natural source, d-limonene and l-limonene (Fig1), which have opposite optical activities (dextrogyrate for d-limonene and levogyrate for l-limonene). In our life, limonene has always been used as a flavoring or fragrance with aroma value. It is also used in the production of several commodity chemicals and medicinal compounds[4]. In our research, limonene is expressed as a kind of bait to attract plant-parasitic nematodes as its special flavor could draw nematodes’attention.
Chemotaxis
There are researches showing that when plants are infected by herbivore insects, they will secrete many kinds of volatiles to induce nematodes that are harmful to these predators. For example, Tylenchulus semipenetrans are more attracted to Citrus spp. roots that infected by weevil larvae than uninfected plants[1], which proves that the terpene secreted by the infected plants could attract some kinds of parasitic nematodes. This proves that many terpenes can attract plant-parasitic nematodes in natural circumstances, which probably serves as a self-defending mechanism.
Some researches showed that limonene is a kind of volatile that attracts nematodes such as Tylenchulus semipenetrans[2]. As a result, we tried to use limonene to achieve our aim to attract some plant-parasitic nematodes.
Biosynthesis Pathways
Limonene is a kind of terpenoids (isoprenoids), and the precursor of limonene is geranyl pyrophosphate (GPP). GPP is synthesized by Isopentenyl diphosphate (IPP) and IPP’s isomer dimethylallyl diphosphate (DMAPP). IPP and DMAPP are the two essential building blocks to synthesize all terpenoids[3]. The synthesis pathways of IPP and DMAPP in most eukaryotes and prokaryotes are slightly different. While MVA pathway occurs[5] in most eukaryotes (Plants use both pathways), MEP pathway (Fig 2) occurs in most bacteria including Escherichia coli.
Based on the synthesis of IPP and DMAPP in the pathways mentioned above, GPP synthase (GPPS) catalyzes the condensation between IPP and DMAPP to synthesize GPP, and then Limonene synthase (LS) catalyzes the intramolecular cyclization of GPP to synthesize limonene.
In E. coli, the levels of intracellular GPP expression are very limited, which will hinder the expression of limonene[4]. However, transferring the entire MEV pathway into E. coli may increase the burden for E. coli, so in our research, we transferred both GPPS gene and LS gene into the E. coli BL21 (DE3) to improve limonene expression.
Project
Design
In our project we decided to use E. coli, MEP pathway to express limonene. We cloned the GPPS and LS genes (for d-limonene and l-limonene respectively) into the pGEX-4T-1 plasmid. The GPPS gene was from Abies grandis, and d&l-limonene synthase genes were from Citrus unshiu (GenBank: AB110636.1) and Mentha spicata (GenBank: L13459) respectively. Then we transferred the plasmids into E. coli BL21 (DE3) to express the synthases. After that, we used the ultrasonication method to make E. coli homogenate and did SDS-PAGE analysis to identify the expression of the synthases.
After the successful expression of the synthases, we did GC-MS to identify the expression of limonene. As the limonene was expressed, we tried to verify the limonene’s attractivity to nematodes.
Verification
We conducted the following experiments[6] to verify whether limonene can attract nematodes.
We divided the NGM medium dish into two even parts and drew a circle of 1cm diameter at the center of the plate. We put two small pieces of circular filter paper 2.5cm from the center of the circle (Fig 3).
Our verification experiment was divided into two types of groups -- the experimental groups and the control groups. First we dilute the limonene by DMSO and the final concentration of the limonene is 5%. We then add 5μL 5% limonene (T) and DMSO (C) respectively at the two small circular filters in the experimental groups(Fig 4-a). As for the control groups, both of the two small circular filters are added 5μL DMSO (Fig 4-b) to eliminate the influence of the position of the nematodes. We also add 5 μL DMSO and M9 saline respectively (Fig 4-c) at the filters in order to eliminate the influence of the attraction or the exclusion of DMSO. Later we add 30μL suspension of the nematodes at the center of the plate and cultivate them in the incubator under 20℃ for 1 hour. After the nematodes move dispersedly, we put the plate into the 4℃ refrigerator for 1 hour until the move of the nematodes slows down.
We observed the distribution of the nematodes and counted the number of the nematodes. After that, we did a statistic analysis to confirm the attractive function of limonene towards the nematodes. If in the verification experiment limonene attracts nematodes, the module we build can be used to attract nematodes successfully.