5 Must Know Facts For Your Next Test

1. Auxin is primarily produced in the shoot apical meristem and is transported downward through the stem to regulate growth.
2. The transport of auxin is primarily mediated by specific proteins known as PIN proteins, which help establish a gradient necessary for directional growth.
3. Auxin plays a vital role in phototropism by redistributing itself to the shaded side of a plant, causing cells on that side to elongate more and thus bending the plant toward the light.
4. Gravitropism in plants is influenced by auxin transport as it redistributes auxin towards the lower side of roots, promoting downward growth.
5. Disruption of auxin transport can lead to abnormal growth patterns, such as stunted plants or irregular flowering.

Review Questions

• How does auxin transport influence plant responses to light and gravity?
  • Auxin transport is critical for how plants respond to light and gravity, phenomena known as phototropism and gravitropism. In phototropism, auxin moves away from light, concentrating on the shaded side of the plant. This results in differential growth, with cells on the shaded side elongating more, causing the plant to bend toward the light. In gravitropism, when a plant is tilted, auxin redistributes toward the lower side of roots and stems, encouraging root growth downwards and stem growth upwards.
• Discuss the role of PIN proteins in auxin transport and how they contribute to plant growth regulation.
  • PIN proteins are essential for facilitating auxin transport across cell membranes. They are localized on specific sides of plant cells, allowing auxin to move in a polar manner from areas of high concentration to low concentration. This polarization ensures that auxin accumulates in particular regions of the plant, effectively regulating growth processes such as cell elongation and differentiation. The correct functioning of PIN proteins is vital for maintaining proper developmental patterns and responses to environmental signals.
• Evaluate the impact of disrupted auxin transport on overall plant health and development.
  • Disrupted auxin transport can lead to significant issues in plant health and development, including stunted growth and irregular flowering patterns. When auxin cannot be distributed properly within the plant, it affects key growth processes such as elongation and root development. For instance, if auxin accumulation is hindered in certain areas due to improper transport mechanisms, it can result in abnormal branching or failure to respond correctly to environmental stimuli. These disruptions can ultimately lead to decreased fitness and survival of the plant.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.