M2 L8+9 Flashcards
energy from food, metabolic pathways and ruminants
outline the major dietary carbs available to animals
maltose, sucrose, lactose
briefly outline digestion of carbs and proteins in animals
Proteins are broken down by pancreatic and gastric hydrolases into amino acids
Complex carbohydrates are broken down by hydrolases into monosaccharides
describe the role of ATP in metabolism and explain why it needs to be continually recycled
it is used as an immediate donor of energy, high turnover, cannot be stored
describe the way in which oxidation and reduction reactions help in energy conservation
for every oxidation reaction, there is a coupled reduction reaction
electrons are transferred and energy is conserved on electron carriers
relate free energy changes associated with hydrolysis of phosphorylated metabolic intermediates to ATP synthesis and hydrolysis
the bonds formed after hydrolysis are lower in energy than before
explain why metabolic pathways must be regulated
to prevent from cells going the wrong way.
because there are lots paths that merge into each other and are sometimes used for shortcuts, cells have different needs at different times
outline the most common ways that metabolic pathways are regulated
key enzyme catalyzed reactions
amount of enzyme produced
allosteric regulation
covalent modification
outline the importance of glucose in animal metabolism
it is absorbed from the intestinal tract to the all the cells in the body, major fuel for the brain, precursor for many other molecules
explain why ruminants are not able to obtain glucose directly from their diet
all the foodstuff goes directly to the rumen where microorganisms degrade the plant polysaccharides to glucose for their own use to make ATP, no glucose is left for the animal
describe the by products of rumen fermentation that are available to ruminants
volatile fatty acids;
acetate (2c), for ATP synthesis
propionate,(3c) reserved for glucose synthesis in liver
butyrate, (4c) fatty acid biosynthesis, some for ATP synthesis
outline the major pathways for carbohydrate metabolism
polysaccharides, monosaccharides, glycolysis (glucose, glyceraldehyde-3-phosphate, pyruvate) to fermentation of respiration
Explain the role of electron carriers in the conservation of energy
Electrons represent a store of free energy. The electron carriers temporarily store these electrons to be passed on to another substrate or carrier so that the free energy is not lost.
