Understanding the Role of SABP2-Interacting Proteins (Sip) 432: An Premnaspirodiene Oxygenase Enzyme in Stress Signaling
Faculty Mentor
Dr. Dhirendra Kumar
Mentor Home Department
Biological Sciences
Short Abstract
Several proteins contribute to pathogen resistance, but the overall pathway remains unknown. By piecing together genes and protein actions in immune response, the defense mechanisms can be understood. This study focuses on the characterization of a SABP2-interacting protein SIP432. BLAST analysis shows it is a premnaspirodiene oxygenase-like enzyme. The interaction of SIP432 with tobacco SABP2, a critical component of salicylic acid mediated plant immunity, implies a role for SIP432 in plant defense signaling.
Category
Science and Technology
Start Date
24-4-2023 2:15 PM
End Date
24-4-2023 2:30 PM
Location
D.P. Culp Center Room 271J
Understanding the Role of SABP2-Interacting Proteins (Sip) 432: An Premnaspirodiene Oxygenase Enzyme in Stress Signaling
D.P. Culp Center Room 271J
Several proteins contribute to pathogen resistance, but the overall pathway remains unknown. By piecing together genes and protein actions in immune response, the defense mechanisms can be understood. This study focuses on the characterization of a SABP2-interacting protein SIP432. BLAST analysis shows it is a premnaspirodiene oxygenase-like enzyme. The interaction of SIP432 with tobacco SABP2, a critical component of salicylic acid mediated plant immunity, implies a role for SIP432 in plant defense signaling.