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the proteome is the entire set of proteins expressed by a genome
proteome is larger then the number of genes
true in eukaryotes
this is because more than one protein can be produced by a gene cause of RNA splicing
the set of proteins expressed can change over time due to
factors affecting what proteins are expressed are - cellular stress, metabolic activity, response to signalling molecule ,diseased vs healthy cells
genes that don't code for proteins are called non-coding rna regions - they make tRNA, rRNA, RNA that control expression of other genes
proteomics is study of proteins - structure and functions
proteins are main physiological part of metabolic pathway
intracellular membranes
organelle - tiny cellular structure that performs specific functions in a cell -embedded in cytoplasm
eukaryote - any cell that has a clearly defined nucleus
these cells have a nuclear membrane surrounding it
eukaryotic cells have a relatively small surface area to volume ratio due to their small size.
therefore the plasma membrane of eukaryotic cells has too small surface area to carry out all the vital functions carried out by membranes
so they have a system of internal membranes ,which increase surface area so functions can be carried out
the endoplasmic recticulum forms a network of membrane tubules continuous with the nuclear membrane
rough ER and smooth ER
rough ER has ribosomes on its cystolic face - important in synthesis and packaging of proteins
cystolic face - surface directing towards the cytoplasm
smooth ER lacks ribosomes - storage organelle . important in creation and storage of lipids and steroids
golgi apparatus - in cytoplasm
complex of vesicles and folded membranes
involved in secretion and intracellular transport - process and packages proteins for secretion
transport of lipids and creation of lysosomes
folds are called cisternae
series of flattened membrane discs . discs are connected allowing molecules to move within it. it Is adjacent to the ER.
lysosomes - cytoplasm
membrane bound organelles containing a variety of hydrolases that digest lipids ,carbohydrates and nucleic acids. interior of lysosome is acidic so enzyme works to its optimum.
vesicles - transport materials between membrane compartment. consist of an aqueous solution enclosed by a lipid bilayer
move molecules , secrete substances, digest materials
synthesis of membrane components
lipids and proteinase synthesised In the ER
lipids are synthesised in the smooth ER and inserted into its membrane
lipids are organic compounds that are fatty acids or their derivatives - insoluble in water soluble in other organic solvents
ser not used in protein synthesis
synthesis of all proteins starts in cystolic ribosomes -RER
ribosomes are the sight of translation
translation translates mRNA into polypeptide chain.
the synthesis of cytosolic proteins is completed there and these proteins remain in the cytosol
proteins in cytosol play important role in signal transduction and glycolysis
cytosol made of mainly water , small molecules, dissolved ions , large water soluable molecules
a transmembrane protein, integral membrane protein spans whole of cell membrane and permenantly attached
transmembrane proteins carry a signal sequence, which halts translation and directs ribosome synthesising the protein to dock with ER forming RER.
this signal sequence is a short stretch of amino acids at one end of amino acids at one end of the polypeptide that determines the eventual location of a protein in a cell.
translation continues after docking, and the protein is inserted into the membrane of the ER.
movement of proteins between membranes
once the proteins are in the ER, they are transported by vesicles that bud off from the ER and fuse with the Golgi apparatus.
as proteins move through the Golgi they undergo post-translational modification.
post-translational modification is the covalent modifications made to the protein after translation.
the polypeptide chain undergoes PTM to form the mature product
PTM- important in cell signalling
molecules move through the Golgi discs in vesicles that bud off from one disc and fuse to the next one in the stack
as they move the PTM takes place
addition of carbohydrates is the major ptm , enzymes catalyse the addition of various sugars in multiple steps to from carbohydrates.
vesicles that leave the Golgi apparatus take proteins to the plasma membrane and lysosomes.
vesicles going to the plasma membrane leave the Golgi network in steady stream
the membrane proteins and lipids provide new components for the cells plasma membrane
soluble proteins in vesicles are secreted to extracellular space
vesicles move along microtubules to other membranes and fuse with them within the cell
secretory pathway
secreted proteins are translated in ribosomes on the RER and enter its lumen.
peptide hormones like insulin and digestive enzymes like trypsin are examples of secreted proteins
the proteins move through the Golgi and are packaged into secretory vesicles
these vesicles move to and fuse with the plasma membrane releasing the proteins out of the cell
this is possible due to the fluid nature of plasma membrane
both vesicle and plasma membrane are phospholipid bilayers
this allows vesicle to fuse with membrane
many secreted proteins are synthesised as inactive precursors and require proteolytic cleavage to produce active proteins.
proteolysis is the breakdown of proteins into smaller polypeptides or amino acids
typically catalysed by cellular enzymes called proteases but may also occur by intramolecular digestion
another type of PTM
digestive enzymes are example of secreted proteins that require proteolytic cleavage to become active
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