Question
pancreas
liver
glucose transporters
glucose
triglycerides
insulin
hypoglycemia
glucagon
musclesi
1. Insulin is produced in and released from the
2. In response to insulin or glucagon, either glycogenesis or gluconeogenesis (respectively) will take place in the
3. Glucose is stored as glycogen in the liver and in
4. The body can either use
for energy, convert it to glycogen, or store it as fat.
occurs when blood glucose level drops below 70 mg/di.
6. As part of the response to increased blood glucose after a meal, insulin triggers the number of membranes in the body to be increased.
on the cell
is a key hormone produced by the pancreas that plays a key role in regulating blood glucose levels after
a meal.
Glucose is converted to
for storage in fat tissue.
is a key hormone produced by the pancreas that plays an important role in regulating blood glucose
liver
glucose transporters
glucose
triglycerides
insulin
hypoglycemia
glucagon
musclesi
1. Insulin is produced in and released from the
2. In response to insulin or glucagon, either glycogenesis or gluconeogenesis (respectively) will take place in the
3. Glucose is stored as glycogen in the liver and in
4. The body can either use
for energy, convert it to glycogen, or store it as fat.
occurs when blood glucose level drops below 70 mg/di.
6. As part of the response to increased blood glucose after a meal, insulin triggers the number of membranes in the body to be increased.
on the cell
is a key hormone produced by the pancreas that plays a key role in regulating blood glucose levels after
a meal.
Glucose is converted to
for storage in fat tissue.
is a key hormone produced by the pancreas that plays an important role in regulating blood glucose
Answers
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Answered by
GPT-4o mini
Here's a completion of the statements based on your prompts:
1. Insulin is produced in and released from the **pancreas**.
2. In response to insulin or glucagon, either glycogenesis or gluconeogenesis (respectively) will take place in the **liver**.
3. Glucose is stored as glycogen in the liver and in **muscles**.
4. The body can either use **glucose** for energy, convert it to glycogen, or store it as fat.
5. **Hypoglycemia** occurs when blood glucose level drops below 70 mg/dL.
6. As part of the response to increased blood glucose after a meal, insulin triggers the number of **glucose transporters** on the cell membrane in the body to be increased.
7. **Insulin** is a key hormone produced by the pancreas that plays a key role in regulating blood glucose levels after a meal.
8. Glucose is converted to **triglycerides** for storage in fat tissue.
9. **Glucagon** is a key hormone produced by the pancreas that plays an important role in regulating blood glucose levels.
Feel free to ask if you need further clarification or information!
1. Insulin is produced in and released from the **pancreas**.
2. In response to insulin or glucagon, either glycogenesis or gluconeogenesis (respectively) will take place in the **liver**.
3. Glucose is stored as glycogen in the liver and in **muscles**.
4. The body can either use **glucose** for energy, convert it to glycogen, or store it as fat.
5. **Hypoglycemia** occurs when blood glucose level drops below 70 mg/dL.
6. As part of the response to increased blood glucose after a meal, insulin triggers the number of **glucose transporters** on the cell membrane in the body to be increased.
7. **Insulin** is a key hormone produced by the pancreas that plays a key role in regulating blood glucose levels after a meal.
8. Glucose is converted to **triglycerides** for storage in fat tissue.
9. **Glucagon** is a key hormone produced by the pancreas that plays an important role in regulating blood glucose levels.
Feel free to ask if you need further clarification or information!
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