My tens digit is the only even prime number, while my millions digit is three times that value.
β
β
My hundred-thousands digit is the additive identity, and my thousands digit is the multiplicative identity.
β
β
I am palindromic in my extremes: my ones digit is the sum of my tens and hundreds digitsβthe latter being the number of sides on a Euclidean square.
β
β
My ten-thousands digit is the positive difference between my largest and smallest non-zero digits.
Who am I?
Who am I?
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Video
Glycogenesis
Glycogenolysis
Glycolysis
Gluconeogenesis
The names sound extremely similar because all are connected to glucose metabolism, but each pathway does a completely different job inside the body.
π’ Glycogenesis = Storage pathway
When glucose levels are high after eating, the body converts extra glucose into glycogen and stores it mainly in liver and muscles for future energy needs.
π¦ Glucose β Glycogen
π΄ Glycogenolysis = Glucose release pathway
When the body needs energy during fasting, exercise, or stress, stored glycogen is broken down back into glucose.
π€ Glycogen β Glucose
β‘ Glycolysis = Energy production pathway
Here, glucose is directly broken down to produce ATP, the energy currency of the cell. This pathway occurs in almost every cell.
βοΈ Glucose β Pyruvate + ATP
π Gluconeogenesis = New glucose formation pathway
During prolonged fasting or low carbohydrate intake, the body starts making new glucose from non-carbohydrate sources like amino acids, lactate, and glycerol.
π οΈ Non-carbohydrates β Glucose
So even though the names look nearly identical, the functions are completely different:
π¦ Store glucose
π€ Release stored glucose
β‘ Break glucose for energy
π οΈ Create new glucose
Thatβs why biochemistry feels confusing at firstβ¦
half the battle is just decoding the pathway names π§¬
Credit, :@biotech.symposium
@edsciencelab
Glycogenolysis
Glycolysis
Gluconeogenesis
The names sound extremely similar because all are connected to glucose metabolism, but each pathway does a completely different job inside the body.
π’ Glycogenesis = Storage pathway
When glucose levels are high after eating, the body converts extra glucose into glycogen and stores it mainly in liver and muscles for future energy needs.
π¦ Glucose β Glycogen
π΄ Glycogenolysis = Glucose release pathway
When the body needs energy during fasting, exercise, or stress, stored glycogen is broken down back into glucose.
π€ Glycogen β Glucose
β‘ Glycolysis = Energy production pathway
Here, glucose is directly broken down to produce ATP, the energy currency of the cell. This pathway occurs in almost every cell.
βοΈ Glucose β Pyruvate + ATP
π Gluconeogenesis = New glucose formation pathway
During prolonged fasting or low carbohydrate intake, the body starts making new glucose from non-carbohydrate sources like amino acids, lactate, and glycerol.
π οΈ Non-carbohydrates β Glucose
So even though the names look nearly identical, the functions are completely different:
π¦ Store glucose
π€ Release stored glucose
β‘ Break glucose for energy
π οΈ Create new glucose
Thatβs why biochemistry feels confusing at firstβ¦
half the battle is just decoding the pathway names π§¬
Credit, :@biotech.symposium
@edsciencelab
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Video
Sex education π
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Sex education π
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@edsciencelab ππ¨βπ¬
@edsciencelab ππ¨βπ¬
π¦ππππ‘ππ πππ
π©π½βπ¦Ό @edsciencelab ππ¨βπ¬
Chale if you nor turn scientist it will pain me ooπππππ
π¦ππππ‘ππ πππ
Chale if you nor turn scientist it will pain me ooπππππ
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