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Studied by 62 peopleNoteStudied by 131 peopleNoteStudied by 4 peopleNoteStudied by 14 peopleNoteStudied by 13 peopleNoteStudied by 21 people
organisation in living things : principles and applications of science
specialised cells
tissues - group of cells with same general structure and function
organs - group of different tissues gathered together to perform a function eg : lung
organ system - group of different organs gathered together to perform different functions eg : digestive system
and these make a whole organism
cell differentiation
when a new organism is formed as a result of sexual or asexual reproduction all the early cells are the same.
as an organism develops specialisation of cells starts to take place
each type of cell will have a specific structure or function
this process is called cell differentiation and leads to the formation of tissues
once the change has taken place the cells cannot develop into other types of cells
specialised cells
plant stem cells :
mature plants have differentiated tissue cells but also have stem cells that can develop into the differentiated tissue
these stem cells can be found in areas called meristems
these exist close to the growing points of plants
tip of stems and roots
specialised plant tissues include :
root hair cells
xylem
phloem
guard cells
palisade cells
root hair cells
root hair cells have long roots which allow them to have large surface area
cell wall of a root hair cell is thick which increases rate of absorption
water moves in by mitosis
concentration of ions is much lower outside the cell than inside
ions moved by active transport
lots of carrier proteins
many mitochondria to provide energy for transport
palisade cells
palisade cells have many chloroplasts to transport light energy for photosynthesis situated in the upper surface of leaf close to light
columnar shape maximises absorption of light
chloroplasts can move
vacuole full of H2O maintains cell turgor
striated or skeletal muscle
palisade cells have many chloroplasts to transport light energy for photosynthesis situated in the upper surface of leaf close to light
columnar shape maximises absorption of light
chloroplasts can move
vacuole full of H2O maintains cell turgor
organisation in living things : principles and applications of science
specialised cells
tissues - group of cells with same general structure and function
organs - group of different tissues gathered together to perform a function eg : lung
organ system - group of different organs gathered together to perform different functions eg : digestive system
and these make a whole organism
cell differentiation
when a new organism is formed as a result of sexual or asexual reproduction all the early cells are the same.
as an organism develops specialisation of cells starts to take place
each type of cell will have a specific structure or function
this process is called cell differentiation and leads to the formation of tissues
once the change has taken place the cells cannot develop into other types of cells
specialised cells
plant stem cells :
mature plants have differentiated tissue cells but also have stem cells that can develop into the differentiated tissue
these stem cells can be found in areas called meristems
these exist close to the growing points of plants
tip of stems and roots
specialised plant tissues include :
root hair cells
xylem
phloem
guard cells
palisade cells
root hair cells
root hair cells have long roots which allow them to have large surface area
cell wall of a root hair cell is thick which increases rate of absorption
water moves in by mitosis
concentration of ions is much lower outside the cell than inside
ions moved by active transport
lots of carrier proteins
many mitochondria to provide energy for transport
palisade cells
palisade cells have many chloroplasts to transport light energy for photosynthesis situated in the upper surface of leaf close to light
columnar shape maximises absorption of light
chloroplasts can move
vacuole full of H2O maintains cell turgor
striated or skeletal muscle
palisade cells have many chloroplasts to transport light energy for photosynthesis situated in the upper surface of leaf close to light
columnar shape maximises absorption of light
chloroplasts can move
vacuole full of H2O maintains cell turgor
NoteStudied by 62 peopleNoteStudied by 131 peopleNoteStudied by 4 peopleNoteStudied by 14 peopleNoteStudied by 13 peopleNoteStudied by 21 people