NCCC207: Biochemistry and Genetics of Plant-Fungal Interactions

(Multistate Research Coordinating Committee and Information Exchange Group)

Status: Inactive/Terminating

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NCCC207: Biochemistry and Genetics of Plant-Fungal Interactions

Duration: 10/01/2008 to 09/30/2013

Administrative Advisor(s):


NIFA Reps:


Non-Technical Summary

Statement of Issues and Justification

Title: NCCC-173, 2007 Biochemistry and Genetics of Plant-Fungal Interactions (NCCC173)

Statement of Issues and Justification:

Filamentous fungal pathogens cause diseases on all agricultural crops resulting in millions of tons of crop losses and billions of dollars in lost revenue annually. Strategies to combat fungal diseases include fungicides, crop rotation, plant resistance, and disease-free seed all of which have had limited success in controlling disease. The ability of fungi to develop fungicide resistance and overcome plant resistance continues to interfere with designing long term control measures for pathogenic fungi. For many decades, liberal fungicide application regimes was the main strategy for fungal disease control. However, in recent years, disease control in agriculture has become challenging due to the removal and/or federal regulations concerning the registration and application of fungicides. With the loss of this traditional disease control measures the need for new, innovative control measures that are economically sound, and environmentally friendly, become more important than ever to address future needs. Unfortunately, there is a dearth of knowledge concerning the biochemical and genetic bases of fungal pathogenicity which has hindered the development of alternative disease control strategies.

A better understanding of the biochemical, molecular and genetic basis of plant-fungal symbiotic interactions (from parasitism to mutualism), and the response of plants to these microbes, is critical to the development of effective long term control measures. For example, phytopathogenic fungi express several different pathogenic lifestyles including biotrophy, hemibiotrophy, and necrotrophy, and may express a pathogenic or mutualistic symbiotic lifestyle depending upon the plant host they interact with, and may show tissue specificity or microhabitat preferences, and lifestyle expression correlated to the production of toxins and/or extracellular enzymes. Clearly, plant-fungal interactions are complex and the level of complexity surrounding such studies is exacerbated by the fact that there are numerous species of fungi of agricultural importance, namely the pathogens. In order to realistically make advances in understanding how and why fungi cause disease, and hence, provide insightful information for the development of management tools, the multi-disciplinary complexities involved in host-pathogen interactions must be simultaneous studied with several fungal genera. If granted a renewal, the goal of the NCCC-173 committee will be to design meetings in which individuals from several diverse disciplines and fungal systems will be able to interact, share information (via a website based platform), establish collaborations, foster an interactive environment for students and mentors alike, to better understand the academic basis of plant-fungal interactions, which can then be applied to agriculture.

Initiated in 1991 (first meeting - January 1992), and renewed in 1994, 1998 and 2003, the group was originally designated NCR-173 and the focus of the meetings was the genetics and biochemistry of host-parasite interactions in the genus Colletotrichum. Colletotrichum was chosen because it is a model fungal system for the study of phytopathogenesis. Collectively, Colletotrichum species are easy to maintain and manipulate in culture, numerous research laboratories worldwide study this genus, and plant bio-assays, biochemical, molecular, and genetic protocols have been optimized in several of these species. By focusing our efforts on a single genus, an enormous amount of information was quickly obtained from the various labs. The exchange of ideas, information and collaborations established in subsequent meetings allowed us to begin building the foundation for understanding the basis of plant-fungal interactions.

Through collaborative interactions made possible by this NCR committee, understanding the genetic and molecular bases of pathogenicity in the fungal genus Colletotrichum was largely advanced. Major areas of research focused on classical genetic analysis, intercellular communication between fungal and plant cells, molecular systematics of this genus, chromosomal analysis, molecular transformation of these fungi, and genetic aspects of disease. Significant advances in these areas of study occurred, in large part, as a result of concerted interactions among the participants of NCR-173 both during and subsequent to our annual meetings. We have met annually and these sessions have fostered scientific information exchange and an opportunity to coordinate research efforts and management strategies into host-fungal interactions encompassing the genus Colletotrichum and in 2003, expanded to encompass other fungal genera of importance as well.

Over time we have found that the inclusion of scientists studying plant-fungal interactions in other fugal systems has been of tremendous value. As a result of this increasing scientific diversity in our membership and as noted in our 2002 administrative review, in 2003, we changed to the title of our group to more accurately reflect the extended focus of our committee. The change in title of NCR-173 to The Biochemistry and Genetics of Plant-Fungal Interactions reflects the shift in emphasis from Colletotrichum sp., to include a wide range of fungal genera such as Alternaria, Fusarium, Curvularia, Sclerotinia, Cochliobolus, Pyrenophora, Monolinia, Ustilago, to name a few. In addition, in 2005, the name of our committee was changed from NCR-173 (North Central Region) to NCCC-173 (North Central Coordinating Committee) to better reflect the make-up and aims of our group.

The above mentioned fungal systems were chosen because they represent diverse genera in which major areas of research from labs worldwide are focused. Collectively, these fungi express different symbiotic lifestyles ranging from mutualism to parasitism, may show tissue specificity or microhabitat preferences, and produce toxins, avirulence proteins and/or extracellular enzymes. In addition, classical genetic analysis, genomic sequencing, proteomics and biochemical, molecular, and applied field studies addressing plant-fungal interactions are presently being addressed in these systems. By widening our scope to encompass several model fungal systems along side emerging tractable systems, the information shared in the last several years has allowed us to compile and analyze a great deal of information regarding the universal similarities and unique differences involved in plant-fungal interactions. In so doing, what was once an individualistic and often laboriously lengthy approach has now take on a quickened synergetic momentum.

We have continually stressed interdisciplinary activities which are clearly reflected in the make up of our participants. Membership in NCCC-173 includes classical geneticists, population biologists, evolutionary biologists, molecular biologists, physiologists, mycotoxicologists, plant molecular biologists, field epidemiologists, and pest management scientists. Thus, this is an exceptional collaborative interaction between a blend of basic and applied scientists representing land grant universities, private industry and government. We also have committee members from throughout the region, the country, and other countries. The interdisciplinary nature of the NCCC-173 meetings has allowed several laboratories to make greater advances than if the group was restricted to specific labs or systems.

Objectives

  1. Bring together scientists that study the genetics and biochemistry of fungal-plant interactions in several different economically important fungal genera having different trophic interactions with plantsThese genera include Alternaria, Fusarium, Sclerotinia, Magnaporthe, Aspergillus, Cochliobolus, Pyrenophera, Monolinia, and Ustilago.
  2. Continue the coordination of basic genetics and molecular research on Colletotrichum spp. and Colletotrichum-induced diseases, and expand this coordination to include the economically important fungal genera named in objective 1.
  3. Improve genetic resources and molecular manipulation by expanding the existing Colletotrichum germplasm repository to include other fungal genera (listed above), and apply the advances made in molecular manipulation of individual fungal species to the other fungal genera.
  4. Integrate research findings concerning the biology and genomics of plant-fungal interactions with new information about resistance mechanisms in host plants, thereby providing field pathologists and agronomists with improved management strategies against plant pathogens.
  5. Explore new funding possibilities to enhance activities.

Procedures and Activities

Expected Outcomes and Impacts

  • Utilization of information technology: Maintain website <http://www.uark.edu/depts/plant/> in which stock collection, protocol and resource information is shared. This site allows for convenient, inexpensive access to information for all members pertaining to the exchange of ideas, coordination of laboratory and field research, protocols, contacts, and fungal culture resources.
  • Coordination of specific laboratory and field research: Streamline experimental designs to address hypothesis driven questions applicable to all systems. Enhance data collection, analysis, and interpretation utilizing a multi-disciplinary approach. Coordination of studies and communication via a website based platform, will result in rapid accumulation and sharing of information to better understand the processes involved in plant - fungal interactions.
  • Exchange of ideas/information/data/resources: Provide and encourage an open, critical, and accessible venue for the annual meeting. This meeting will enhance productivity and save time and money by sharing the most recent resources and ideas. The makeup of the committee and the atmosphere created at the meetings is meant to encourage discussion of unpublished ideas and results in the context of the latest data and concepts of fungal-plant interactions. As such, the meeting must maintain and foster a noncompetitive, mutually beneficial and collaborative environment. This will stimulate alternative approaches for obtaining data and addressing the outstanding and long-term problems associated with fungal diseases of plants. This information will be shared with USDA national program leaders and funding directors and discussions will be facilitated with these leaders by periodically holding meetings in the D.C. area and inclusion of these individuals in the annual meeting program.
  • Publication of both individual and joint research/review articles (see Appendix 1 for previous examples): Enhance the available information base allowing for the better understanding of plant-fungal interactions. Ultimately, this information will be utilized to provide guidance for the development of management tools to enhance economic productivity and promote environmental stewardship.
  • Standardization of experimental protocols: Enhance reproducibility, analysis, and conformity of procedures by posting protocols through the website-based platform. Standardization will promote consistency in interpretations of data which will save time and money.

Projected Participation

View Appendix E: Participation

Educational Plan

This is a request for a continuation of an existing NCCC committee. During the tenure of the existing committee, we have had five very successful and productive meetings, three of which included international participation. As stated, our repository is in place; over 1000 cultures are present. A WEB homepage has also been developed and can be accessed (http://www.uark.edu/depts/plant/). The homepage provides general information about the repository and allows individuals to view or download the database. Scientists can request a culture online or provide needed information to deposit a culture into the repository. Culture requests still must meet all state and federal requirements prior to shipping. Committee members have published numerous papers since 2003 that are directly relevant to our objectives and research efforts. Several of those manuscripts have been the result of collaborations established and maintained because of NCCC-173 (Appendix 1).

Organization/Governance

There will be three officers for NCCC-173. A secretary will be elected every three years at the appropriate annual meeting. The secretary records and distributes minutes of the annual meeting, and then becomes chair of the committee for the following two years. The chair directs the activities of the committee, serves as the liaison between the committee and the administrative advisor, and makes arrangements for the next annual meeting. The treasurer calculates and sets the rate for registration fees, collects registration fees, and is responsible for ensuring that conference, housing, and dining fees related to the annual meetings are settled. In addition, a local host will be selected each year, who will be responsible for choosing the location for the next meeting and coordinating local arrangements with the chair.

Literature Cited

Attachments

Land Grant Participating States/Institutions

CT, FL, GA, IN, KS, KY, MI, MN, NE, OH, OR, PA, TX, WI

Non Land Grant Participating States/Institutions

University of Kentucky, USDA-ARS Red River Agricultural Research Center
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