specialised cells

Created by

veronica chung

Cards (41)

specialised cells are cells that have a specific function and are adapted to carry out that function
specialised cells are differentiated to have different extra sub-cellular structures to suit their functions
after cell is specialised, it's irreversable
red blood cells - don't have nucleus - carry more oxygen
red blood cells - bi-concave disc - larger surface area
red blood cells - haemoglobin - binds with oxygen
sperm cells - reproduction
sperm cell - travel toward and fertilise the egg
sperm cell - have half the full chromosome in the nucleus - the other half is in the egg
sperm cell flagellum - swim
sperm cells have many mitchondria to transfer energy to the tail
acrosome (at the head of the sperm) - contain enzymes to break through the egg's outer layer
sperm cell is streamlined - reduce usage of energy
nerve cells - conduct electrical impulses for movement
dendrites - connect with other cells
axon - long, conduct electrical impulse in one direction
myelin sheath - insulate the impulse
synapses (at the end of the axon) - send neurotransmitter chemicals to another nerve cell or effector
effector = muscle or gland
nerve cells - long to cover more distance (increase the speed of transmission)
cardiac & smooth muscle cells - involuntary contraction
skeletal (striated/striped)muscle cells - cell run parallel fibres, voluntary contraction
muscle cell special proteins - slide past each other making the muscle fibre to contract
muscle cells have many mitochondria - transfer energy to the contraction (reaction to aerobic respiration)
glycogen - store energy in form of glucose. broken down to release energy from glucose
muscle cells are long to allow space to contract
root hair cells locate in the soil to absorb water and mineral
root hair cells have long hair like extension - increase surface area for absorbtion
root hair cells have many mitochondria - fuel the active transport of minerals into the cell
large vacuole - for water to move into by osmosis
root hair cells have no chloroplast - no sunlight underground
xylem cells transport water and minerals ions from the roots to the leaves
xylem cells are made from dead cells
xylem cell walls have broken down between - form hollow tubes, strengthened by lignin
xylem cells use transpiration
phloem cells transport glucose from the leaves to the rest of the plant
phloem cells are made from living cells
phloem cell walls have been broken down between cells to form sieve plates - allow sugars to flow freely by translocation
companion cells (found either side of phloem cells) - contain many mitochondria to transfer energy to phloem cells
phloem cells contain very few organelles for easy flows