plasma membrane, cytosol and inclusions

Question 1

cell membrane (plasmalemma)

Answer 1

• defines cell boundaries and retains contents
• semipermeable lipid bilayer
• bacteria and plant cells: cell wall attached to membrane

Question 2

plasma membrane below TEM

Answer 2

• two electron dense layers separated by an intermediate electron transparent layer
• each layer is 2.5-3 nm thick

Question 3

biochemical analysis of the membrane

Answer 3

• mainly of lipids and (glycosilated) proteins

Question 4

Singer and Nicolson fluid-mosaic model (1972)

Answer 4

• amphipathic
• inner is hydrophobic, external surfaces are hydrophilic
• protein:lipid = 1: 1

Question 5

scRNAseq experimental setup

Answer 5

• tissue collection, sorting, smart-seq2, clustering
• ratios of ISC populations change drastically in dystrophic muscle

Question 6

modified fluid-mosaic model

Answer 6

• dynamic (fluid) and multipartite (mosaic)
• protein distribution and movement is not as random
• glycoproteins and glycolipids form the glycocalyx at the outer surface of the cell
• peripheral proteins adhere, often temporarily to the lipids of integral proteins
• variable amount of lipids (e.g. cholesterol) in time and space

Question 7

distribution of phospholipids in membrane

Answer 7

• asymmetric and irregular
• outer leaflet: mainly phosphatidylcholine and sphingomyelins
• inner leaflet: mainly pshopatidylserine and phosphatidylethanolamine

Question 8

micro-domains of the plasmamembrane

Answer 8

• lipid rafts
• specific glycosphingolipids and high concentrations of cholesterol
• a variety of proteins involved in signalling
• become evident in the form of caveolar drafts (caveolae)
• proposed functions: endothelial transcytosis, signalling, tumour repression, lipid regulation

Question 9

microscope labelling

Answer 9

• glycocalix sugars can be stained to indicate membrane on light microscope images
• specific membrane molecules can be labelled making the membrane visible

Question 10

atomic force microscope image of lipid bilayer

Answer 10

• sphingomyelin and cholesterol molecules form lipid rafts thicker than non-raft areas
• white particles represent toxins which bind to a receptor present in rafts

Question 11

freeze-fracture image of plasma membrane

Answer 11

• scheme of the fracture and corresponding TEM of protoplasmic and exoplasmic leaflets

Question 12

specialisation of cell membrane

Answer 12

• microvilli,stereo cilia and cilia
• micro-ridges, flagella

Question 13

cytoplasm

Answer 13

• interior of cell but nucleus
• cytosol: liquid or aq part (cytoplasmic matrix)
• organelles and particles remain suspended

Question 14

EUK cell

Answer 14

• mini organs mostly surrounded by membrane, which have unique structures and functions
• cytoskeleton
• inclusions: glycogen, lipids, pigments…

Question 15

inclusions

Answer 15

• metabolic by-products, storage forms of various nutrients, inert crystals and pigments
• aggregates of (macro)molecules not membrane bound
• have no metabolic activity themselves
• temporary storage
• useful to identify cell types as are not presents in all cells

Question 16

lipid droplets (LD)

Answer 16

• membrane bound
• range greatly in size
• many proteins decorate their surfaces that may play functional roles in LD biology
• polar lipids outside, non-polar lipids inside

Question 17

glycogen granules

Answer 17

• aggregates of glucose polymer
• irregular
• similar to ribosomes: electron dense on TEM

Question 18

pigmented deposits

Answer 18

• naturally coloured materials
• melanin, lipofuscin, hemosiderin
• vary in size and colour
• often prominent in phagocytic cells or non-dividing cells

Question 19

Reinke crystals

Answer 19

• rod-like cytoplasmic inclusions which can be found in Leydig cells of the testes

Question 20

weibel-palade bodies

Answer 20

• endothelial cells
• rod-like bodies contain vonWillebrand factor and P-selectin
• play an important role in platelet adhesion to the site of injury and in blood coagulation

Question 21

hemosiderosis

Answer 21

• iron can accumulate in the liver in a variety of conditions