BEGIN:VCALENDAR
VERSION:2.0
CALSCALE:GREGORIAN
BEGIN:VEVENT
URL:https://www.learndesk.us/class/6031358776311808/lesson/7927ccab79d41f0b98d843a4ee8b36ab?ref=outlook-calendar
SUMMARY:UNIT 12
DTSTART;TZID=America/Los_Angeles:20260501T190000
DTEND;TZID=America/Los_Angeles:20260501T200000
LOCATION:https://www.learndesk.us/class/6031358776311808/lesson/7927ccab79d41f0b98d843a4ee8b36ab?ref=outlook-calendar
DESCRIPTION: Plants, like most organisms, respond to heat like a stressful stimulus. When challenged by increased heat, plants tend to secrete particular hormones that enact pathways that can lead to physiological changes such as reducing growth and inhibition of pollen grain swelling. This is achieved via a combination of Heat stress factor (Hsf) and Heat shock proteins (Hsfs).

Figure 1. Diagram of heat response Hsf and Hsp pathways (Ai-Li et al., 2013)

Figure 2. Diagram of reactive oxygen species (ROS) clearing (Ai-Li et al., 2013)

Figure 3. diagram of phosphate response during heat stress (Ai-Li et al., 2013)

https://www.learndesk.us/class/6031358776311808/lesson/7927ccab79d41f0b98d843a4ee8b36ab?ref=outlook-calendar
STATUS:CONFIRMED
SEQUENCE:3
BEGIN:VALARM
TRIGGER:-PT10M
DESCRIPTION:Class Reminder
ACTION:DISPLAY
END:VALARM
END:VEVENT
END:VCALENDAR