Plant Cell Specialisation

Created by

Aaron

Cards (15)

What are the three specialized plant cells discussed?
Root hair cells, xylem cells, phloem cells
View source
What is the process called when cells become specialized?
Differentiation
View source
What are three key structures of a general plant cell?
Chloroplasts, cellulose cell wall, permanent vacuole
View source
How do root hair cells adapt to their function?
Increase surface area for absorption
Lack chloroplasts since they are underground
View source
What is the function of root hair cells?
To absorb water and dissolved minerals
View source
Why do root hair cells not contain chloroplasts?
They are underground and do not perform photosynthesis
View source
What are the key features of xylem cells?
Thick walls containing lignin for support
End walls broken down to form long tubes
No nucleus, cytoplasm, vacuole, or chloroplasts
View source
What do xylem cells transport?
Water and dissolved minerals
View source
What is the significance of lignin in xylem cells?
It provides support to the plant
View source
How do the structures of xylem cells facilitate water flow?
They form long tubes with no internal structures
View source
What are the key features of phloem cells?
Consist of phloem vessel cells and companion cells
Phloem vessel cells have no nucleus and limited cytoplasm
End walls have sieve plates for sugar movement
View source
What do phloem cells transport?
Dissolved sugars
View source
What is the role of companion cells in phloem?
They provide energy to phloem vessel cells
View source
How do sieve plates in phloem vessel cells aid in function?
They allow dissolved sugars to move through
View source
How are root hair cells, xylem cells, and phloem cells specialized for their functions?
Root hair cells: Increase surface area, lack chloroplasts
Xylem cells: Thick walls, no internal structures for water flow
Phloem cells: Sieve plates for sugar transport, companion cells for energy
View source