Term
What are the 4 energy sources? |
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Definition
carbs proteins fats alcohol |
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Term
how many kcal/grams does carbs contain |
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Definition
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Term
how many kcal/grams does protein contain |
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Definition
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Term
how many kcal/grams does fats contain |
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Definition
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Term
how many kcal/grams does alcohol contain |
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Definition
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Term
what are the 2 states the body is in |
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Definition
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Term
In the well fed state glucose has 3 fates |
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Definition
satisfy energy needs store extra glucose as glycogen (muscle or liver) store extra glucose as fat |
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Term
What is the major anabolic hormone that drives all 3 states in the well fed state? |
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Definition
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Term
Starvation state has 3 fates |
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Definition
glycogen breakdown breakdown of fat gluconeogenesis |
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Term
Glycogen breakdown occurs in the |
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Definition
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Term
Liver glycogen breakdown is for |
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Definition
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Term
Muscle glycogen breakdown is for |
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Definition
only in sympathetic state (flight/Fight) |
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Term
Oxidation of fat occurs in 2 ways |
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Definition
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Term
Complete breakdown of fat involves three things **** |
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Definition
beta oxidation (breakdown of a fatty acid to acetyl coA) Krebs Electron transport chain |
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Term
A breakdown of fatty acids to acetyl CoA is considered a |
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Definition
complete breakdown of fat |
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Term
Incomplete oxidation of fat leads to |
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Definition
ketone body synthesis (short lived) |
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Term
Ketone body synthesis is produced in periods of |
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Definition
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Term
What are the 3 ketone bodies for kidney filtration |
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Definition
Acetoacetate Betahydroxybutyrate Acetone |
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Term
What is the worst ketone body? |
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Definition
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Term
Acetoacetate and betahydroxybutyrate can be used in the body for |
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Definition
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Term
Acetoacetate and betahydroxybutyrate is used for energy purposes in the |
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Definition
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Term
What is the rate limiting enzyme for ketone body synethesis? |
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Definition
HMG CoA synthase (cholesterol) |
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Term
Ketone bodies are formed via |
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Definition
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Term
Ketone bodies are acidic until |
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Definition
the liver can get to gluconeogenesis |
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Term
What keeps life alive in starvation states? |
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Definition
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Term
how many ATP doe we get from the complete breakdown of 1 glucose? |
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Definition
36 in the muscle 38 in the liver |
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Term
1 glucose molecule in aerobic glycolysis will yield |
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Definition
2 atp 2nadh 2 pyruvate
in the cytoplasm |
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Term
The 2 pyruvate yielded from the glucose molecule in the cytoplam is carried into the mitochondria by the |
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Definition
mitochondrial pyruvate carrier |
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Term
Once in the mitochondria the 2 pyruvates are transformed into |
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Definition
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Term
the 2 acetyl coA will be sent to |
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Definition
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Term
2 pyruvates will be changed to acetyl coA by |
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Definition
pruvate dyhydrogenase enzyme |
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Term
The conversion of the pyruvate to acetyl coA will yield |
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Definition
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Term
1 acetyl coA molecule through krebs will yield |
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Definition
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Term
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Definition
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Term
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Definition
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Term
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Definition
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Term
How many ATP's are produced in the krebs system |
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Definition
24 ( we have 2 acetyl coA going through krebs) |
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Term
The electron transport chain is preformed in the |
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Definition
inner mitochondria membrane |
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Term
What is the major function of the electron transport chain |
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Definition
to reoxidize NADH back to NAD and FADH2 back to FAD
THe bonus is that we generate energy |
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Term
1 NADH will yield __ ATP in the ETC |
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Definition
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Term
1 FADH2 will yield ___ ATP in the ETC |
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Definition
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Term
Where does the pyruvate dehydrogenase complex occur? |
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Definition
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Term
The pyruvate dehydrogenase complex will generate |
|
Definition
2 NADH to be sent to the ETC for reoxidation |
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Term
How many ATP are generated in aerobic glycolysis |
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Definition
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Term
The pyruvate dehydrogenase complex yields ___ ATP |
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Definition
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Term
The krebs cycle will yield ___ ATP |
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Definition
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Term
The NADH from aerobic glycolysis in the cytoplasm has to get into the ___ to enter the etc to be reoxidized |
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Definition
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Term
The glycerol phosphate shuttle is used in the ___ |
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Definition
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Term
the malate aspartate shuttle is used in the |
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Definition
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Term
In the glycerol phosphate shuttle 2 NADH in the cytoplasm enter into the mitochondria as |
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Definition
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Term
2 FADH2 will equal ___ ATP |
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Definition
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Term
In the malate aspartate shuttle in the liver 2 nadh in the cytoplasm make |
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Definition
2 NADH2 in the mitochondria |
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Term
2 NADH2 will equal ___ ATP |
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Definition
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Term
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Definition
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Term
In the well fed state glycolysis is stimulated by |
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Definition
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Term
Glycolysis in the well fed state is inhibited by |
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Definition
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Term
What are the regulatory enzymes of glycolysis |
|
Definition
hexokinaase phosphofructokinase pyruvate kinase |
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Term
all 3 regulatory enzymes in glycolysis are |
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Definition
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Term
Glycolysis occurs in 2 states |
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Definition
aerobic (well fed) anerobic (starvation) |
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Term
aerobic glycolysis will yield |
|
Definition
glucose broken down into 2 pyruvate (pyruvic acid) |
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Term
anaerobic glycolysis of glucose will produce |
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Definition
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|
Term
Hexokinase in the entire body will use |
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Definition
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Term
Hexokinase in the liver will use |
|
Definition
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Term
|
Definition
glucose 6 phosphate + ADP (step 1) |
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Term
What is the rate limiting enzyme of glycolysis |
|
Definition
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Term
If there is no phosphofructokinasfe what will happen |
|
Definition
there will not be glycolysis |
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Term
Phosphofructokinase will yield |
|
Definition
Fructose 6 phosphate + ATP |
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Term
Fructose 6 phosphate + ATP will yield |
|
Definition
fructose 1,6 bisphosphate + ADP (step 3) |
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Term
Pphosphofructokinase steps are inhibited by |
|
Definition
ATP and Citrate (utilized as a switch between glycolysis and glycogen synthesis) |
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Term
Pyruvate Kinase is going to utilize what step |
|
Definition
phosphoenolpyruvate (PEP) + ADP to produce pyruvate and ATP |
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Term
The pyruvate kinase step has |
|
Definition
|
|
Term
Aerobic glycolysis has a net gain of |
|
Definition
2 ATP (substrate level of phosphorylation) 2 NADH ( ATP is produced in the ETC-oxidative phosphorylation) |
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|
Term
|
Definition
lactate and NAD (lactate dehydrogenase) |
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|
Term
The krebs cycle is also known as |
|
Definition
citric acid cycle or the tricarboxylic acid cycle |
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|
Term
The location of the krebs cycle is |
|
Definition
|
|
Term
What are the 3 regulatory enzymes of the krebs cycle |
|
Definition
citrate synthase, isocitrate dehydrogenase, and alpha ketoglutarate dehydrogenase |
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Term
how many steps are in the TCA cycle |
|
Definition
8 (not including the production of cis-aconitate) |
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|
Term
Per turn of the TCA cycle 1 acetyl coA will produce |
|
Definition
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|
Term
Per molecule of glucose oxidized to the krebs cycle there will be ___ atp made |
|
Definition
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|
Term
To initiate the Krebs cycle pyruvate dehydrogenase will make acetyl coA to join |
|
Definition
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|
Term
What is the most highly oxidized, occurs in the lowest concentration, and is the most sought after for the krebs? |
|
Definition
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|
Term
What is the mneumonic to remember the product steps of the krebs (TCA) cycle |
|
Definition
Our Cousin Ciscilla Is Kissing Sixty Six French Men |
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|
Term
Oxaloacetate (Our) will form __ via enzyme ___ |
|
Definition
Citrate (cousin) via Citrate Synthase |
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|
Term
Citrate (cousin) will form __ via enzyme ___ |
|
Definition
Cis-aconitate (ciscilla) via Aconitase |
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Term
Cis-aconitate (ciscilla) will form __ via enzyme ___ |
|
Definition
Isocitrate (is) via aconitase |
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Term
Isocitrate (is) will form ___ via enzyme ____ |
|
Definition
alpha ketogluterate (kissing) via isocitrate dehydrogenase (nadh given off) |
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Term
Alpha ketogluterate (kissing) will form __ via enzyme ___ |
|
Definition
Succinyl- CoA (sixty) via alpha ketogluterate dehydrogenase complex (thiamine will be present) Nadh formed, Co2 given off |
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|
Term
Succinyl-CoA (sixty) will form __ via enzyme ___ |
|
Definition
succinate (six) via succinate thiokinase (GTP formed) |
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Term
Succinate (six) will form __ via enzyme ___ |
|
Definition
Fumerate (french) via succinate dehydrogenase (forms FADH2) B2 is present |
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|
Term
Fumerate (french) will form ___ via enzyme ___ |
|
Definition
L-Malate (men) via fumerase |
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|
Term
Malate will form ___ via enzyme ___ |
|
Definition
Oxaloacetate via malate dehydrogenase in the prescence of B3 and produces a NADH |
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|
Term
Oxaloacetate will have __ carbons |
|
Definition
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|
Term
Citrate will have __ carbons |
|
Definition
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|
Term
Cis aconitate will have __ carbons |
|
Definition
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|
Term
Isocitrate will have __ carbons |
|
Definition
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|
Term
alpha Ketogluterate will have ___ carbons |
|
Definition
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|
Term
Succinyl CoA will have __ carbons |
|
Definition
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|
Term
Succinate will have ___ carbons |
|
Definition
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|
Term
Fumerate will have __ carbons |
|
Definition
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|
Term
Malate will have __ carbons |
|
Definition
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|
Term
There are 2 irreversible steps in the krebs cycle |
|
Definition
oxaloacetate to citrate alpha ketogluterate to succinyl CoA |
|
|
Term
what is the key step of the krebs cycle |
|
Definition
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|
Term
IF malonyl CoA is in the queston they are asking about |
|
Definition
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|
Term
Fatty acids synthesis (lipogenesis) is done in the |
|
Definition
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|
Term
Acetyl CoA + CO2 + ATP is going to yield |
|
Definition
|
|
Term
The regulatory enzyme for fatty acid synthesis is |
|
Definition
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|
Term
Fatty acid synthesis is stimulated by |
|
Definition
insulin, inhibited by glucagon |
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|
Term
What are the Coenzymes used in fatty acid synthesis |
|
Definition
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|
Term
Fatty acid synthesis is a |
|
Definition
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|
Term
Acetyl CoA is transported from the mitochondria t they cytosol as |
|
Definition
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|
Term
In the starvation state the cytosol will have an extra amount of |
|
Definition
acetyl coA; ketone bodies; a saturated krebs cycle |
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|
Term
Fatty acid degradation (beta oxidation/lipolysis) is done in |
|
Definition
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|
Term
What is the regulatory enzyme of beta oxidation/lipolysis |
|
Definition
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|
Term
Hormone sensitive lipase will |
|
Definition
cleave off tracylglycerides that are stored in the adipose tissue |
|
|
Term
What is the hormonal regulation of lipolysis |
|
Definition
epinepherine which is inhibited by insulin |
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|
Term
Epinepherine is stimulated by the |
|
Definition
sympathetic nervous system (exercise) |
|
|
Term
What is the transporter of fatty acids from the cytosol to the mitochondria |
|
Definition
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|
Term
What is the precursor to carnitine? |
|
Definition
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|
Term
The step involving beta oxidation in the mitochondria is |
|
Definition
fatty acids forming into acetyl coA to go to krebs |
|
|
Term
The urea cycle contains __ of nitrogen containing compounds |
|
Definition
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|
Term
Urea contains __ nitrogen atoms and __ carbon ataoms |
|
Definition
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|
Term
Both nitrogen atoms in the urea cycle come from the amino acid (what is the major nitrogen donor of the urea cycle?) |
|
Definition
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|
Term
What is the rate limiting enzyme of the urea cycle? |
|
Definition
carbamoyl phosphate synthase |
|
|
Term
carbamoyl phosphate synthase is present in |
|
Definition
|
|
Term
What is the reaction that carbamoyl phosphate synthase will catalyze |
|
Definition
CO2 + NH3 + 2ATP --> carbamyol phosphate |
|
|
Term
the important rate limiting enzymes of the urea cycle are use the acronym |
|
Definition
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|
Term
|
Definition
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|
Term
|
Definition
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|
Term
|
Definition
|
|
Term
The HMP shunt is used in the fatty acid synthesis in the |
|
Definition
|
|
Term
What is the regulatory enzyme of the HMP shunt |
|
Definition
glucose 6 phosphate dehydrogenase |
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|
Term
The HMP shunt has 2 functions |
|
Definition
production of NADPH for fatty acid synthesis and steroid hormone synthesis Production of ribose 5 phosphate for nucleotide (DNA/RNA) synthesis |
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|
Term
What is the net gain or loss of ATP in the HMP shunt?*** |
|
Definition
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|
Term
Gluconeogenesis is primarily located in |
|
Definition
|
|
Term
The intial step of gluconeogensis starts with |
|
Definition
malate (in the mitochondria) |
|
|
Term
What crosses the mitochondrial membrane into the cytosol |
|
Definition
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|
Term
Once malate crosses the membrane into the cytosol it is converted to |
|
Definition
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|
Term
Oxaloacetate is then converted to |
|
Definition
PEP by the enzyme PEP carboxykinase using a GTP |
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|
Term
The PEP carboxykinase step uses energy to bypass |
|
Definition
|
|
Term
What 2 hormones stimulate gluconeogenesis? |
|
Definition
glucagon and cortisol inhibited by insulin |
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|
Term
|
Definition
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|
Term
|
Definition
|
|
Term
What are the three precursors to gluconeogenesis |
|
Definition
glycerol, lactate, and amino acids |
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|
Term
What is primarily generated during the breakdown of triglycerides in the adipose tissues |
|
Definition
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|
Term
Glycerol travels to the ___ where it may do either of 2 things |
|
Definition
liver; glucose or enters the glycolytic pathway |
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|
Term
What is derived by muscle during anaeroboic conditions in gluconeogenesis |
|
Definition
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|
Term
Lactate travels to the ___ where it is converted to |
|
Definition
liver; pyruvate and ultimately to glucose |
|
|
Term
The conversion of lactate to pyruvate to glucose in the liver is known as |
|
Definition
|
|
Term
The cori cycle couples two things |
|
Definition
anaerobic glycolysis and gluconeogenesis |
|
|
Term
Amino acids can be converted into |
|
Definition
|
|
Term
What can be converted into glucose |
|
Definition
any TCA cycle intermediate |
|
|
Term
What undergoes transanimation reactions to be converted to their gluconeogenic precursors |
|
Definition
alanine, aspartate, and glutamate |
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|
Term
Aspartate is associated with |
|
Definition
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|
Term
Alanine is associated with |
|
Definition
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|
Term
Glutamate is associated with |
|
Definition
|
|
Term
all transanimation reactions require |
|
Definition
pyridoxal phosphate that is derived from pyridoxine (B6) |
|
|
Term
What gluconeogenic enzyme converts pyruvate + CO2+ ATP into oxaloacetate +ADP |
|
Definition
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|
Term
Pyruvate carboxylase is a __ reaction utilizing the coenzyme___ |
|
Definition
carboxylation reaction; biotin |
|
|
Term
the pyruvate carboxylase reaction occurs in the |
|
Definition
|
|
Term
PEP carcoxykinase converts |
|
Definition
oxaloacetate + GTP to PEP + GDP + CO2 |
|
|
Term
what is needed to bypass pyruvate kinase in glycolysis? |
|
Definition
pyruvate carboxylase and PEP carboxykinase |
|
|
Term
Which is a GTP driven step in gluconeogenesis? |
|
Definition
|
|
Term
Fructose 1,6 bisphosphatase is a gluconeogenic enzyme that converts |
|
Definition
fructose 1,6 bisphosphate to fructose 6 phosphate + Pi |
|
|
Term
Fructose 1, 6 bisphosphatase bypasses which step in glycolysis |
|
Definition
|
|
Term
Glucose 6 phosphatase is a gluconeogenic enzyme that converts |
|
Definition
glucose 6 phosphate to glucose + Pi |
|
|
Term
Glucose 6 phosphatase is only present in the |
|
Definition
|
|
Term
What allows the liver to generate free glucose from glycogen breakdown in gluconeogenesis? |
|
Definition
|
|
Term
What does glucose 6 phosphatase bypass? |
|
Definition
glucokinase in glycolysis in the liver |
|
|
Term
If there is too much citrate or ATP there is a swtich to |
|
Definition
glucagon synthesis turning off PFK |
|
|
Term
What enzyme will convert glucose 6 phosphate to glucose 1 phosphate |
|
Definition
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|
Term
Glucose 1 mutase will use ___ to make glycogen |
|
Definition
|
|
Term
In the well fed state glucose |
|
Definition
will be free in the blood tissues |
|
|
Term
The first messenger for glycogen breakdown is |
|
Definition
|
|
Term
The 2nd messenger for glycogen breakdown is |
|
Definition
|
|
Term
THe major messenger for glycogen breakdown is |
|
Definition
|
|
Term
CAMP will cause the release of |
|
Definition
|
|
Term
Glycogen phosphorlase b causes the release of |
|
Definition
glycogen phosphorlase A (active) |
|
|
Term
Glycogen phosphorlase A will breakdown glycogen to make |
|
Definition
|
|
Term
Glucose 1 phosphate will be broken down to |
|
Definition
Glucose 6 phosphate by phosphoglucomutase/glucokinase |
|
|
Term
The electron transport chain is aka |
|
Definition
oxidative phosphoralation |
|
|
Term
Where is the location of the ETC |
|
Definition
inner mitochondrial matrix |
|
|
Term
In the ETC NADH will make ____ ATP; and how many protons will be pumped out |
|
Definition
3; 6 protons will be pumped out |
|
|
Term
In the ETC FADH2 will make ___ ATP; and how many protons will be pumped out |
|
Definition
2 ATP; 4 protons pumped out |
|
|
Term
What is the key element of the ETC? |
|
Definition
Oxygen (ultimate receptor of electrons) |
|
|
Term
What is the initiator of the ETC |
|
Definition
Coenzyme Q (similar to Vitamin K) |
|
|
Term
The ETC is ___ to ATP synthesis |
|
Definition
|
|
Term
The hypothesis that couples the synthesis of ETC and the synthesis of ATP is called |
|
Definition
chemiosmotic hypothesis (mitchell hypothesis) |
|
|
Term
What delivers Oxygen to the ETC |
|
Definition
|
|
Term
COQ10 will initiate complexes ___ in the ETC |
|
Definition
|
|
Term
COQ10 is naturally produced in the |
|
Definition
|
|
Term
What transfers electrons from complex 3 and 4 |
|
Definition
|
|
Term
When FADH2 comes it it automatically goes to |
|
Definition
complex 2 (thats why you only get 2 ATP) |
|
|
Term
|
Definition
2 H =1 ATP on the cytosol side |
|
|
Term
|
Definition
2H= 1 atp on the cytosol side |
|
|
Term
Complex 4 in the presence of cytochrome C will make |
|
Definition
2H=1ATP on the cytosol side |
|
|
Term
The hydrogens (2) produced in complex 4 in the cytosol from the ETC will go through |
|
Definition
ATP synthase to produce 4 more ATP in the mitochondrion |
|
|
Term
What are 3 examples of catabolic pathways |
|
Definition
glycolysis, lipolysis, glycogenolysis |
|
|
Term
What are 4 examples of anabolic pathways |
|
Definition
gluconeogenesis, lipogenesis, glycogenesis, and nuclei acid synthesis |
|
|
Term
|
Definition
|
|
Term
|
Definition
|
|
Term
|
Definition
|
|
Term
|
Definition
oxidation/reduction reactions |
|
|
Term
|
Definition
|
|
Term
|
Definition
|
|