UCR

Center for Plant Cell Biology



Events Calendar


Seminar:
CEPCEB Seminar Speaker - Dr. Anjali Iyer-Pascuzzi

Friday, October 6, 2017
12:101 p.m.

Location:

Genomics Building
Parking Information

Description:

Dear Faculty, Postdocs, Students, and Friends:

You are cordially invited to a seminar presented by

 



Anjali Iyer-Pascuzzi

 

Department of Botany and Plant Pathology
Purdue University

 

Title:

“Getting to the root of plant disease resistance in tomato”


DATE: Friday, October 6, 2017

 LOCATION: Genomics Auditorium, RM 1102A

Time:12:10pm

 

 

Host: Jamie Van Norman

 

Abstract:

Plant roots constantly defend themselves against soilborne pathogens, and root diseases are a severe limiting factor in crop production throughout the world. Although roots are often critical to whole plant resistance, root defense responses are not well understood. Our long-term goal is to decipher the mechanisms of root-mediated resistance to the soilborne pathogens that cause a large class of root diseases known as vascular wilts. Ralstonia solancearum, the causal agent of bacterial wilt, is one of the most globally destructive soilborne bacteria. Using the tomato – R. solanacearum pathosystem as a model, we are exploring the role of root architecture, root anatomy, and the root microbiome in resistance. Light and scanning electron microscopy revealed that bacteria are differentially distributed in tomato root cell types of resistant and susceptible varieties, and that resistant plants delay colonization of the root vasculature. A time-course of tomato whole root global expression profiling after R. solanacearum infection demonstrated that roots of resistant plants activate defense responses faster than their susceptible counterparts and alter auxin pathways after infection. Subsequent mutational analysis in tomato revealed the critical nature of auxin in bacterial wilt disease. Preliminary results from 16S amplicon sequencing reveal quantitative differences in the root microbiome between resistant and susceptible plants. Our data suggest that root-mediated resistance to R. solanacearum in tomato is due to differences in root transcriptional events, hormone signaling, and in the microbiome.

Additional Information:

Open to:

General Public

Admission:

Free

Sponsor:

Institute for Integrative Genome Biology


More Information

General Campus Information

University of California, Riverside
900 University Ave.
Riverside, CA 92521
Tel: (951) 827-1012

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Center Information

Center for Plant Cell Biology
Botany & Plant Sciences Department
2150 Batchelor Hall

Tel: (951) 827-7177
Fax: (951) 827-5155
E-mail: genomics@ucr.edu

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