cell structure

Created by

Issy Tsui+

Cards (56)

Define a eukaryotic cell
DNA is contained in a nucleus, contains membrane-bound specialised organelles.
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Define a Prokaryotic cell
DNA is 'free' in cytoplasm, no organelles e.g. bacteria & archaea.
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State the relationship between a system and specialised cells.
Specialised cells → tissues that perform specific function → organs made of several tissue types → organ systems
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Describe the structure of the cell-surface membrane.
Fluid mosaic' phospholipid bilayer with extrinsic & intrinsic proteins embedded
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Describe the function of the cell-surface membrane
● Isolates cytoplasm from extracellular environment.
● Selectively permeable to regulate transport of
substances
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Explain the role of cholesterol
steroid molecule connects phospholipids & reduces fluidity
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Explain the role of glycoproteins
cell signalling, cell recognition (antigens) & binding cells together
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Explain the role of glycolipids
cell signalling & cell recognition
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Describe the structure of the nucleus 
● Surrounded by nuclear envelope, a semi-permeable double membrane.
● Nuclear pores allow substances to enter/exit.
● Dense nucleolus made of RNA & proteins assembles ribosomes.
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Describe the function of the nucleus
● Contains DNA coiled around chromatin into chromosomes.

● Controls cellular processes: gene expression determines specialisation & site of mRNA transcription, mitosis, semiconservative replication
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Describe the structure of a mitochondrion 
● Surrounded by double membrane folded inner membrane forms cristae: site of electron transport chain
● Fluid matrix: contains mitochondrial DNA, respiratory enzymes, lipids, proteins.
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Describe the structure of a chloroplast
● Vesicular plastid with double membrane.

● Thylakoids: flattened discs stack to form
grana; contain photosystems with chlorophyll.

● Intergranal lamellae: tubes attach thylakoids
in adjacent grana.

● Stroma: fluid-filled matrix
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State the function of mitochondria
site of aerobic respiration to produce ATP
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State the function of chloroplasts
site of photosynthesis to convert solar energy to chemical energy
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Describe the structure and function of the Golgi apparatus. 
Planar stack of membrane-bound, flattened sacs cis face aligns with rER.

Molecules are processed in cisternaevesicles bud off trans face via exocytosis:
● modifies & packages proteins for export
● synthesises glycoproteins
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Describe the structure of a lysosome
- Sac surrounded by single membrane
- embedded H+ pump maintains acidic conditions
- contains digestive hydrolase enzymes
- glycoprotein coat protects cell interior
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Describe the function of a lysosome
● digests contents of phagosome
● exocytosis of digestive enzymes
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Describe the structure of a ribosome
Formed of protein & rRNAfree in cytoplasm or attached to ER
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Describe the function of a ribosome
● Site of protein synthesis via translation:
large subunit: joins amino acids
small subunit: contains mRNA binding site
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Describe the structure of the endoplasmic reticulum (ER). 
Cisternae: network of tubules & flattened sacs extends from cell membrane through cytoplasm & connects to nuclear envelope
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Describe the function of a rough endoplasmic reticulum (ER)
many ribosomes attached for protein synthesis & transport.
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Describe the function of a smooth endoplasmic reticulum (ER) 
lipid synthesis
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Describe the structure of the cell wall in bacteria
Made of the polysaccharide murein.
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Describe the structure of the cell wall in plants
- Made of cellulose microfibrils
- plasmodesmata allow molecules to pass between cells
- middle lamella acts as boundary between adjacent cell walls.
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State the functions of the cell wall
● Mechanical strength and support.
● Physical barrier against pathogens.
● Part of apoplast pathway (plants) to enable easy diffusion of water
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Describe the structure of the cell vacuole in plants.
Surrounded by single membrane: tonoplastcontains cell sap: mineral ions, water, enzymes, soluble pigments.
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Describe the function of the cell vacuole in plants
● Controls turgor pressure.
● Absorbs and hydrolyses potentially harmful
substances to detoxify cytoplasm
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Explain some common cell adaptations
● Folded membrane or microvilli increase surface area e.g. for diffusion.
● Many mitochondria = large amounts of ATP for active transport.
● Walls one cell thick to reduce distance of diffusion pathway
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State the role of plasmids in prokaryotes
● Small ring of DNA that carries non-essential genes.
● Can be exchanged between bacterial cells via conjugation.
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State the role of flagella in prokaryotes
Rotating tail propels (usually unicellular) organism
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State the role of the capsule in prokaryotes.
polysaccharide layer:

● Prevents desiccation.
● Acts as food reserve.
● Provides mechanical protection against
phagocytosis & external chemicals.
● Sticks cells together.
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what do both eukaryotic and eukaryotic cells have ?
● Cell membrane.
● Cytoplasm.
● Ribosomes (don't count as an organelle since not membrane-bound).
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Why are viruses referred to as 'particles' instead of cells?
Acellular & non-living: no cytoplasm, cannot self-reproduce, no metabolism.
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Describe the structure of a viral particle
● Linear genetic material (DNA or RNA) & viral enzymes e.g. reverse transcriptase.
● Surrounded by capsid (protein coat made of capsomeres).
● No cytoplasm
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Describe the structure of an enveloped virus
● Simple virus surrounded by matrix protein.
● Matrix protein surrounded by envelope derived from cell membrane of host cell.
● Attachment proteins on surface
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State the role of the capsid on viral particles
● Protect nucleic acid from degradation by restriction endonucleases.

● Surface sites enable viral particle to bind to & enter host cells or inject their genetic material
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State the role of attachment proteins on viral particles
Enable viral particle to bind to complementary sites on host cell : entry via endosymbiosis
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Describe how optical microscopes work
1)Lenses focus rays of light and magnify the view of a thin slice of specimen.

2) Different structures absorb different amounts and wavelengths of light.

3) Reflected light is transmitted to the observer via the objective lens and eyepiece
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Outline how a student could prepare a temporary mount of tissue for an optical microscope
1) Obtain thin section of tissue e.g. using ultratome or by maceration.

2) Place plant tissue in a drop of water.

3) Stain tissue on a slide to make structures visible.

4) Add coverslip using mounted needle at 45° to
avoid trapping air bubbles
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give advantages of using an optical microscope
+ colour image
+ can show living structures
+ affordable apparatus
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