Week 8 - Unit 2 Flashcards
What is the fate of glucose after a meal?
- Oxidized for energy in Glycolysis
- Synthesis of many compounds
- Storage as Glycogen or Triglycerides
What is the fate of Amino acids after a meal ?
- Protein synthesis
- Oxidation for energy
- Synthesis of nitrogen-containing compounds (nucleotides)
What is the fate of Fats after a meal?
- Storage- triglycerides
- Oxidation for energy
- Synthesis of membrane lipids
What are the dietary fuels?
Carbohydrates
Fat
Protein
Insulin will initiate cascade of events , anabolic processes of _______ fuels , and _____.
Storing
Growing
As levels of blood fuels decreases, you will see elevated levels of stress hormones ___, _____, and ______.
Cortisol
Glucagon
Epinephrine
The primary role of Cortisol, Glucagon, and Epinephrine is to initiate _____ processes to maintain a pool of fuel for cell functioning.
Catabolic - break down of stored fuels to release into bloodstream
Glucose is taken up by the Beta- cell in the pancreas via the _______ transporter. It is then ____ and increases levels of _____.
Glut-2 transporter
Oxidized
ATP
Increased levels of ATP in the Beta-Cells of pancreas (caused by Glucose entering cell), will cause the _____ ____ to close, causing decrease in the voltage in the cell, then opening the _____ channel.
Potassium channel
Calcium channel
Increase in calcium in Beta-cell will facilitate the packaging of _______ and the movement of it in _______ so it can be delivered to peripheral tissues.
Insulin (endocrine hormone)
Exocytosis
Insulin is initially translated as a _______ and requires cleavage of the _____ before it is active polypeptide.
Pro-protein
C-Peptide (2 cleavage locations)
The insulin protein, after the C-peptide is cleaved , consists of an ____ chain and a ____ chain that is linked by _____ linkages.
Alpha
Beta
Disulfide
What does Insulin bind in the target cells ?
what does it initiate ?
Tyrosine-kinase family
Initiates MAP-kinase cascade
when glucose is taken up by the liver, insulin will activate ______ production, fatty acid _____ and increase protein _____.
Glycogen
Synthesis
Synthesis
What will glucose paired with insulin activate in the skeletal muscle ?
Glycogen synthesis
Protein synthesis
What can high levels of insulin caused by blood glucose do in the adipocytes?
Synthesis of Triglycerides
When we synthesis Triglycerides or Glycogen we will at the same time ____ release of free fatty acids or release of free glucose.
Inhibit
When blood glucose is low what two main regions are stimulated?
- Brain- Hypothalamic regulatory center
2. Alpha cells of pancreas (release glucagon)
The pituitary gland in the hypothalamic regulatory center will secrete _______ during low blood glucose levels.
Adrenocorticotropic hormone (ACTH)
What does ACTH stand for ?
Adrenocorticotropic hormone
What does ACTH act on ?
Adrenal gland
- activates cortex (Cortisol release)
- activates medulla (Epinephrine release)
Where does Cortisol get released from ?
Adrenal gland Cortex
Where does Epinephrine get released from ?
Adrenal gland - Medulla
Glucagon binds a _____ receptor and then activates ______ as its second messenger.
G-coupled protein
cyclic AMP
The cAMP in the Glucagon cascade will activate ____ ____ A and elicit a cellular response.
Protein Kinase A
What do high levels of glucagon do to liver?
Glycogenolysis - catabolism of glycogen to free glucose
What do high levels of Cortisol do to the Skeletal muscle ?
Stimulate Protein catabolism so that AA can be delivered to Liver for gluconeogenesis to make more glucose
What does epinephrine do to the adipocytes?
Activates enzyme so that free fatty acids are released
What is the difference between Epinephrine and Norepinephrine at the chemical level?
-epinephrine has a Methyl group attached to its amine group, norepinephrine does not
Epinephrine will stimulate glycogenolysis in the skeletal muscle during exercise breaking it down to ______ to then make either acetyl CoA or Lactate depending on aerobic or anaerobic exercise.
Glucose
The primary responsibility of the liver is to provide _____ so the brain always has energy.
Glucose
The adipocyte will catabolize fat, and the fatty acids can be used in Skeletal muscle to make ATP or sent to liver who will make it into _____ ____ that can be used for energy by the brain.
Ketone bodies
In high blood glucose conditions, with insulin present , the liver is completing what functions
- Triglyceride synthesis
- Glycogen synthesis
- Active glycolysis
In low blood glucose conditions, the liver is completing what functions?
- Glycogen degradation
- Gluconeogenesis
(Glucagon and Epinephrine are present and glucose is released ) -Catabolic
Dietary fats are packaged into _______ that consist of fatty acids and glycerol after absorption in the GI and can be stored in Adipose tissue.
Chylomicrons
What functions to promote fuel storage after a meal and promotes growth?
Insulin
What activates gluconeogenesis and glycogenolysis (liver) during fasting and activates fatty acid release from adipose tissue ?
Glucagon (mobilizes fuels)
What will mobilize fuel during acute stress ?
Epinephrine
What will provide for changing requirements over the long term (steroid hormone)?
Cortisol
Where does digestion begin ?
In mouth with salivary amylase- then inactivated in stomach by pH
When food enters the intestine after the stomach , what will re-add salivary amylase?
Pancreas
What are polysaccharides broken down into in the stomach ?
Alpha-Dextrins
how does salivary amylase digest polysaccharides ?
hydrolyzes the internal Alpha-1-4 bonds to make Disaccharides and Oligosaccharides
What are the primary Disaccharides ?
Lactose
Maltose
Trehalose
What is Lactose made from?
Galactose and Glucose
What is Trehalose made from?
Glucose + Glucose
Once the monosaccharides are in their singular form, they are transported from the lumen into the capillaries via :
Secondary Active transport
What is the first step/ first regulated step of Glycolysis ?
Phosphorylation of Glucose into Glucose 6-P
- by Hexokinase
- or by Glucokinase (liver)
True or False:
The phosphorylation of glucose is reversible and it is not trapped in the cell.
False- the phosphorylation is irreversible and it is trapped in cell once phosphorylated
What are the four main fates of Glucose after it has been phosphorylated into Glucose 6-P ?
Glycolysis
Glycogen synthesis
Pentose phosphate pathway
“Other pathways”
What happens in Glycolysis after Glucose is phosphorylated ?
Glucose 6-P is isomerized by phosphoglucoisomerase
-to Fructose 6-phosphate
What happens after you have the Fructose 6-phosphate in Glycolysis ?
Fructose 6-P is phosphorylated by phosphofructokinase (enzyme), second ATP is used for this
What does Fructose 6-P turn into after it is acted on by phosphofructokinase?
Fructose 1,6 -bisphosphate (phosphate groups on opposite ends)
What is the next enzyme to act on Fructose 1,6 bisphosphate ?
Aldolase - cleaves the 6 C chain inhalf to make 2 products
What two products will Aldolase make when it cuts Fructose 1,6-bisphosphate in half?
- Dehydroxyacetone phosphate
2. Glyceraldehyde3-phosphate
What is the enzyme that can catalyze the reversible changing between Dihydroxyacetone phosphate and Glyceraldehyde 3-phosphate
Triosephosphate isomerase
What will produce the first NADH in glycolysis ?
Enzyme glyceraldehyde 3-P dehydrogenase is used in Dehydrogenation reaction on Glyceraldehyde 3-P (removes H+)
What is the oxidation of glyceraldehyde 3-P dependent upon?
A cysteine residue in the active site of the enzyme - allowing a high energy thio-ester bond- intermediate will accept free phosphate and donate H to NAD
What is the next product in glycolysis after Glyceraldehyde 3-Phosphate?
1,3 Bisphosphoglycerate (has 2 phosphate groups)
What is 1,3-Bisphosphogylcerate used for in Glycolysis ?
Donates phosphate to ADP to make ATP (2 total per one glucose molecule)
What happens to 1,3 bisphosphoglycerate after it is acted upon by phosphoglycerate kinase ?
Turns into 3-phosphoglycerate
What does 3-phosphoglycerate get acted upon by ? what does it turn into?
Phosphoglycerate mutase (enzyme moves the phosphate group) = 2-Phosphogylcerate
What is the last high energy intermediate in Glycolysis that is used to make ATP?
Phosphophenol pyruvate (P- is on middle C)
How do you get Phosphophenol pyruvate ?
Removal of H2O from 2-phosphoglycerate (OH- off of the 3 carbon)
What is the first high energy intermediate used to make ATP in glycolysis ?
1,3-Bisphosphoglycerate
What does Phosphophenol pyruvate turn into after it loses its Phosphate to make ATP?
Pyruvate
What type of reaction occurs between the high energy intermediates of glycolysis to make ATP at the end of the process?
Substrate level phosphorylation
For every One glucose you can make ___ Pyruvate , ____ NADH, and ___ ATP net total. (2 ATP are used up in beginning.
2
2
2
What is the overall Delta G of Glycolysis ?
- 22kg/M
- very powerful resisting reverse direction without input of energy to reverse it
What are the two primary fates of pyruvate?
- Aerobic glycolysis it is accepted by TCA cycle and turned into Acetyl CoA
- Anaerobic glycolysis - reduced to Lactate by Lactate dehydrogenase
What does Lactate Dehydrogenase do ?
reduces Pyruvate (adds 2 H) to make Lactate (acid)
- NADH is donating the H
- reversible
- used in anaerobic conditions
What are the two phosphorylated molecules in glycolysis with high phosphate transfer potential?
1,3-Bisphosphoglycerate
Phosphophenolpyruvate
What 3 primary places is Glycolysis regulated at ?
- Hexokinase or Glucokinase (enzymes)
- Phosphofructokinase-1 (enzyme)
- Pyruvate Kinase (enzyme)
Regulation of Hexo or glucokinase is regulated by ?
Product - Glucose-6-P (elevated levels)
or
Glucokinase is also regulated by regulatory protein that binds it and will release it in the presence of Glucose or Fructose-1 phosphate so it can be active
What is phosphofructokinase-1 (enzyme)activated /enhanced by
- high levels of AMP
2. Fructose 2,6 bisphosphate
What can inhibit phosphofructokinase-1 (enzyme ?
- ATP
2. Citrate
Where does Fructose 2,6 phosphate come from? is it part of glycolysis ?
Not part of glycolysis
- Fructose 6-P is phosphorylated into F 2,6-P by Phosphofructokinase 2
- it will be a precursor that enhances phosphofructokinase -1 activity
Fructose 2,6 Bisphosphate is a ______ to the enzyme Phosphofructokinase-1 that is used to make Fructose 1,6 bisphosphate in glycolysis.
stimulator
Phosphofructokinase 2 is a _____ enzyme with two domains. It has 2 domains Kinase domain and phosphatase domain.
Bifunctional enzyme
What are the two domains of phosphofructokinase 2 ?
- Kinase domain (PFK2)
2. Phosphatase domain (FBP2)
What does the kinase domain do in the phosphofructokinase 2 ?
it will add free phosphate to Fructose 6-Phosphate to make Fructose 2,6, bisphosphate (stimulating product for phosphofructokinase 1 enzyme in glycolysis)
What does the phosphatase domain on Phosphofructokinase 2 do ?
Removes phosphate from Fructose 2,6 bisphosphate
- used in gluconeogenesis
What is Citrate ? how does it inhibit Glycolysis
intermediate of TCA cycle that is transported out of mitochondria into cytosol
-accumulation will block oxidation of glucose in cytosol
What enzyme does accumulation of citrate inhibit?
phosphofructokinase-1
What will stimulate Pyruvate Kinase?
- Fructose 1,6, bisphosphate (upper product of pathway stimulating lower part of pathway)
What will inhibit pyruvate kinase?
ATP
What can 2,3 bisphosphoglycerate function as ?
regulator of hemoglobin -influences binding of oxygen to hemoglobin
