plant hormones Flashcards
properties of hormones
location produced, location used, how much is needed, stimulatory or inhibitory
how hormones work
altering gene expression, triggering cell division, cause or allow cell elongation,
cell elongation
occurs by breaking hemicellulose linkers, allowing the cell wall to expand
Arabidopsis thaliana
model organism for plant research, originates in Europe as a spring annual, is relatively small, rapid generation time (seed to seed in 6 weeks), has a very small genome
auxins
first discovered plant hormone, responsible for tropisms, trigger growth of branch roots and adventitious roots, promote apical dominance, triggers fruit development when produced in seeds signaling the ovary to become a fruit, lethal in high doses
phototropism
occurs in shoot tips, studied by Darwin, Auxin is produced in shoot tips in response to light and they move down the stem to accumulate on the shady side of the plant causing elongation
gravitropism
negative in shoots, positive in roots, caused by statoliths and auxin, in roots auxin gathers where amyloplasts are preventing elongation, in shoots auxin gathers where amyloplasts are causing elongation in the opposite direction
statoliths
structures used to sense gravity in plants, in roots amyloplasts are statoliths in the root caps causing them to fall due to gravity
adventitious roots
roots that grow off of stems
apical dominance
auxin inhibits growth of axillary buds causing the plant to grow tall rather than branching
cytokinins
promote cell division when in equal concentrations with auxin, causes callus tissues, can overcome apical dominance causing branching
callus tissue
large clumps of undifferentiated tissues
tissue cultures
single undifferentiated cell is exposed to equal concentrations of cytokinin and auxin creating callus tissue, expose this tissue to high cytokinin and low auxin causing stem formation, high auxin causes root formation
gibberelins
promote whole shoot elongation, induce seed germination by breaking down the endosperm, induce bolting, stimulates fruit development from inside seeds, increase the size of fruits
bolting
flowering
Norman Borlaug
worked with gibberellins in wheat during the green revolution, discovered and bred dwarf varieties lacking gibberellins producing a higher volume of wheat grains per plant
ethylene
triggers ripening of fruits by causing color change and the conversion of starch to sugars, causes leaf and fruit abscission by breaking down pectin,
ethylene triple response
in normal plants, reduces stem elongation and grows thicker stems, and causes stem curvature, triggered in nature when plants hit an object during sprouting
abscisic acid (ABA)
triggers and maintains bud and seed dormancy and can promote stomatal closures under drought stressors
