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New MIPT Screenilng Technique Will Allow Speedier Crop Growth

Tuesday, October 25, 2016 9:53
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Scientists at Moscow Institute of Physics and Technology (MIPT) beat the clock by quickly finding out what makes plants tick. MIPT scientists developed a technique which can control the growth of plants. They decided to try pollen tubes, which compared to seeds germinate much more quickly (2 hours instead of weeks). Knowing the compounds that influence the rate of plants development will enable biotechnologists to selectively inhibit the growth of pests and promote the growth of crops.

MIPT agricultural biotechnologists developed a new screening technique that can quickly determine how chemicals affect the growth of plants.

Staff of the Laboratory for the Development of Innovative Drugs at MIPT (left to right): Roman Chuprov-Netochin, the author of the study, along with coauthors Elena Marusich, Sergey Leonov (the head of the laboratory), and Polina Volynchuk.

Credit: MIPT

Together with their colleagues from the Research Center of Biotechnology of the Russian Academy of Sciences, Lomonosov Moscow State University, and the University of Freiburg (Germany), the researchers at MIPT have devised a way to quickly identify chemicals that influence the rate at which plants grow. The scientists developed a compound screening technique that relies on pollen and offers an alternative to the conventional seed germination assays, which tend to require over a week to complete.

The research team used tobacco (Nicotiana tabacum) to test their proposed screening technique. To do this, they tested a total of 1,040 compounds in just two hours and identified 65 chemicals that either promoted or inhibited the growth of tobacco. Previously, it would have taken weeks, if not months of painstaking work to obtain the same results by using a less effective compound screening procedure. By contrast, the new technique will allow researchers to spot chemical modulators of plant growth and development within very short periods of time (more details are available in BMC Plant Biology).

“This method enables us to rapidly identify completely new molecular targets and mechanisms of plant growth that can be used to selectively slow down the growth of unwanted plants and stimulate the growth of cultivated species—which we currently see as the aim of the research conducted by our international collaboration,” says Sergey Leonov, the head of the Laboratory for the Development of Innovative Drugs at MIPT.

To identify just one or two compounds that affect plant development, tens or even hundreds of thousands have to be tested. At present, studying the influence of chemicals takes about one month per compound. One might call the technique that is currently in use “layman’s screening”. It involves growing seedlings in a medium containing the chemical that is being tested. You might imagine yourself doing something similar in your backyard: it is a bit like using a new fertilizer and waiting around for two weeks or so to see if it works. Except that you would have to test a thousand of them to find the best compound. To determine whether the molecules of a given chemical affect plant growth, it is necessary to find out how long it takes before seed germination is complete and the shoots have grown.

The scientists hypothesized that seedlings growing in a backyard undergo processes that are similar to those involved in pollen germination and the growth of pollen tubes, and that they also rely on the activation of the same genes. This implies that pollen grains and seeds can have shared targets in growth regulating pathways and, as a result, be affected by the same chemicals. Compared to seeds, pollen germinates much more quickly (in about two hours), which makes it convenient for chemical compound screening, as it means that an experiment can be completed within hours instead of weeks.

Opting for the pollen tube based assay results in significantly higher productivity: with this technique, it is possible to test around 10,000 compounds (and select the most potent ones) within a week. Furthermore, the process no longer involves a human observer; instead, the results are based on computer-aided digital image analysis measuring the area occupied by pollen tubes.

Chemical screening assay procedure: pollen collection (A), preparation of pollen suspension (B), screening (C), and data collection and analysis.

Credit: MIPT

The whole process is automated, with most of the work being performed by the machine. It starts with scientists suspending the pollen in a liquid germination medium, transferring it into multiwell plates, and introducing the test chemicals into the wells. After that, all that needs to be done is to press the right buttons. An automated microscope photographs the contents of each well at the beginning of the experiment and at different stages in the development of pollen. Every image is processed by specialized software, which was developed by the researchers from MIPT in partnership with Molecular Devices LLC. 

It is down to the software to ultimately decide if a given chemical acts as a growth modulator or not. This is accomplished by calculating the area occupied by the pollen in each of the 384 wells per plate at the beginning and at the end of the experiment. These figures are compared to the corresponding ones measured for the controls grown without any added chemicals. If the total area occupied by the pollen grain and tube in a certain well is larger than that of the controls, the machine labels the relevant chemical as a growth stimulator, whereas a smaller area (relative to the controls) is seen as an indication of growth inhibitory properties.

Knowing the compounds that influence the rate of development of different plants, as well as the corresponding molecular mechanisms of plant growth that are targeted by these compounds will enable biotechnologists to selectively inhibit the growth of pests and promote the growth of crops.

This research was carried out as part of the 5-Top100 Russian Academic Excellence Project launched by the government with the aim of creating long-term competitive advantages for the best Russian universities on the global education market.

Contacts and sources:
Asya Shepunova

Institute of Physics and Technology (MIPT) 

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