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Largest-ever map of plant protein interactions

Date:
July 30, 2011
Source:
Salk Institute
Summary:
Researchers have mapped and analyzed thousands of protein-to-protein interactions within the cells of Arabidopsis thaliana -- a variety of mustard plant that is to plant biology what the lab mouse is to human biology. The research promises to enable biologists to make agricultural plants more nutritious and more resistant to drought and diseases.

The image shows an Arabidopsis plant overlaid on a network map of protein-protein interactions. The clusters of colors represent "communities" of interacting proteins that are enriched in specific plant processes.
Credit: Image courtesy of Joseph R. Ecker, Salk Institute for Biological Studies / Plant Photo: Joe Belcovson, Salk Institute for Biological Studies / Network map: Mary Galli, Salk Institute for Biological Studies and Matija Dreze, Center for Cancer Systems Biology at the Dana-Farber Cancer Institute

An international team of scientists has described their mapping and early analyses of thousands of protein-to-protein interactions within the cells of Arabidopsis thaliana -- a variety of mustard plant that is to plant biology what the lab mouse is to human biology.

"With this one study we managed to double the plant protein-interaction data that are available to scientists," says Salk Institute plant biologist Joseph Ecker, a professor in the Plant Molecular and Cellular Biology Laboratory. "These data along with data from future 'interactome' mapping studies like this one should enable biologists to make agricultural plants more resistant to drought and diseases, more nutritious, and generally more useful to mankind."

The four-year project was funded by an $8 million National Science Foundation grant, and was headed by Marc Vidal, Pascal Braun, David Hill and colleagues at the Dana Farber Cancer Institute in Boston; and Ecker at the Salk Institute. "It was a natural collaboration," says Vidal, "because Joe and his colleagues at the Salk Institute had already sequenced the Arabidopsis genome and had cloned many of the protein-coding genes, whereas on our side at the Dana Farber Institute we had experience in making these protein interaction maps for other organisms such as yeast."

In the initial stages of the project, members of Ecker's lab led by research technician Mary Galli converted most of their accumulated library of Arabidopsis protein-coding gene clones into a form useful for protein-interaction tests. "For this project, over 10,000 'open reading frame' clones were converted and sequence verified in preparation for protein-interaction screening," says Galli.

Vidal, Braun, Hill and their colleagues systematically ran these open reading frames through a high quality protein-interaction screening process, based on a test known as the yeast two-hybrid screen. Out of more than forty million possible pair combinations, they found a total of 6,205 Arabidopsis protein- protein interactions, involving 2,774 individual proteins. The researchers confirmed the high quality of these data, for example by showing their overlap with protein interaction datafrom past studies.

The new map of 6,205 protein partnerings represents only about two percent of the full protein- protein "interactome" for Arabidopsis, since the screening test covered only a third of all Arabidopsis proteins, and wasn't sensitive enough to detect many weaker protein interactions. "There will be larger maps after this one," says Ecker.

Even as a preliminary step, though, the new map is clearly useful. The researchers were able to sort the protein interaction pairs they found into functional groups, revealing networks and "communities" of proteins that work together. "There had been very little information, for example, on how plant hormone signaling pathways communicate with one another," says Ecker. "But in this study we were able to find a number of intriguing links between these pathways."

A further analysis of their map provided new insight into plant evolution. Ecker and colleagues Arabidopsis genome data, reported a decade ago, had revealed that plants randomly duplicate their genes to a much greater extent than animals do. These gene duplication events apparently give plants some of the genetic versatility they need to stay adapted to shifting environments. In this study, the researchers found 1900 pairs of their mapped proteins that appeared to be the products of ancient gene-duplication events.

Using advanced genomic dating techniques, the researchers were able to gauge the span of time since each of these gene-duplication events -- the longest span being 700 million years -- and compare it with the changes in the two proteins' interaction partners. "This provides a measure of how evolution has rewired the functions of these proteins," says Vidal. "Our large, high-quality dataset and the naturally high frequency of these gene duplications in Arabidopsis allowed us to make such an analysis for the first time."

The researchers found evidence that the Arabidopsis protein partnerships tend to change quickly after the duplication event, then more slowly as the duplicated gene settles into its new function and is held there by evolutionary pressure. "Even though the divergence of these proteins' amino-acid sequences may continue, the divergence in terms of their respective partners slows drastically after a rapid initial change, which we hadn't expected to see," Vidal says.

In the July 29 issue of Science researchers from the Arabidopsis interactome mapping study reported yet another demonstration of the usefulness of their approach. Led by Jeffery L. Dangl of the University of North Carolina at Chapel Hill, they examined Arabidopsis protein interactions with the bacterium Pseudomonas syringae (Psy) and a fungus-like microbe called Hyaloperonospora arabidopsidis (Hpa). "Even though these two pathogens are separated by about a billion years of evolution, it turns out that the 'effector' proteins they use to subvert Arabidopsis cells during infection are both targeted against the same set of highly connected Arabidopsis proteins," says Ecker. "We looked at some of these targeted Arabidopsis proteins and found evidence that they serve as 'hubs' or control points for the plant immune system and related systems."

Ecker and his colleagues hope that these studies mark the start of a period of rapid advancement in understanding plant biology, and in putting that knowledge to use for human benefit. "This starts to give us a big, systems-level picture of how Arabidopsis works, and much of that systems-level picture is going to be relevant to -- and guide further research on -- other plant species, including those used in human agriculture and even pharmaceuticals,"Ecker says.

The "Arabidopsis Interactome Mapping Consortium" consists of over 20 national and international laboratories that contribute to this study with support from a number of funding agencies including the National Science Foundation and the National Institutes of Health.


Story Source:

The above story is based on materials provided by Salk Institute. Note: Materials may be edited for content and length.


Journal References:

  1. M. S. Mukhtar, A.-R. Carvunis, M. Dreze, P. Epple, J. Steinbrenner, J. Moore, M. Tasan, M. Galli, T. Hao, M. T. Nishimura, S. J. Pevzner, S. E. Donovan, L. Ghamsari, B. Santhanam, V. Romero, M. M. Poulin, F. Gebreab, B. J. Gutierrez, S. Tam, D. Monachello, M. Boxem, C. J. Harbort, N. McDonald, L. Gai, H. Chen, Y. He, J. Vandenhaute, F. P. Roth, D. E. Hill, J. R. Ecker, M. Vidal, J. Beynon, P. Braun, J. L. Dangl. Independently Evolved Virulence Effectors Converge onto Hubs in a Plant Immune System Network. Science, 2011; 333 (6042): 596 DOI: 10.1126/science.1203659
  2. M. Dreze, A.-R. Carvunis, B. Charloteaux, M. Galli, S. J. Pevzner, M. Tasan, Y.-Y. Ahn, P. Balumuri, A.-L. Barabasi, V. Bautista, P. Braun, D. Byrdsong, H. Chen, J. D. Chesnut, M. E. Cusick, J. L. Dangl, C. de los Reyes, A. Dricot, M. Duarte, J. R. Ecker, C. Fan, L. Gai, F. Gebreab, G. Ghoshal, P. Gilles, B. J. Gutierrez, T. Hao, D. E. Hill, C. J. Kim, R. C. Kim, C. Lurin, A. MacWilliams, U. Matrubutham, T. Milenkovic, J. Mirchandani, D. Monachello, J. Moore, M. S. Mukhtar, E. Olivares, S. Patnaik, M. M. Poulin, N. Przulj, R. Quan, S. Rabello, G. Ramaswamy, P. Reichert, E. A. Rietman, T. Rolland, V. Romero, F. P. Roth, B. Santhanam, R. J. Schmitz, P. Shinn, W. Spooner, J. Stein, G. M. Swamilingiah, S. Tam, J. Vandenhaute, M. Vidal, S. Waaijers, D. Ware, E. M. Weiner, S. Wu, J. Yazaki. Evidence for Network Evolution in an Arabidopsis Interactome Map. Science, 2011; 333 (6042): 601 DOI: 10.1126/science.1203877
  3. C. R. Landry. A Cellular Roadmap for the Plant Kingdom. Science, 2011; 333 (6042): 532 DOI: 10.1126/science.1209753

Cite This Page:

Salk Institute. "Largest-ever map of plant protein interactions." ScienceDaily. ScienceDaily, 30 July 2011. <www.sciencedaily.com/releases/2011/07/110728144936.htm>.
Salk Institute. (2011, July 30). Largest-ever map of plant protein interactions. ScienceDaily. Retrieved July 30, 2014 from www.sciencedaily.com/releases/2011/07/110728144936.htm
Salk Institute. "Largest-ever map of plant protein interactions." ScienceDaily. www.sciencedaily.com/releases/2011/07/110728144936.htm (accessed July 30, 2014).

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