The rate of glycolysis is also determined by the concentration of glucose, and the rate of gluconeogenesis by the concentrations of lactate and other precursors of glucose. During starvation, gluconeogenesis predominates because the level of F-2,6-BP is very low.
So the answer is glycolysis.
ANSWER ASAP (BIOCHEMISTRY) Under steady state conditions, is glycolysis or gluconeogenesis favored? A. gluconeogenesis B. glycolysis...
ANSWER TO ALL ASAP (BIOCHEMISTRY)
How many pyruvate molecules are required for synthesis of one glucose by gluconeogenesis? A) 1 B) 2 C) 3 D) 4 mo Glycolysis and gluconeogenesis cannot occur in the same organ or there would be no net change in glucose levels. However, both pathways can occur in different organs and this is known as the A) Pompe cycle B) Hers cycle C) McArdle cycle D) Cori cycle 0.000 O One of the clinical symptoms of...
ANSWER TO ALL asap (BIOCHEMISTRY)
The standard reduction potential of cytochrome cl (Fet) is 0.22 V and the standard reduction potential of cytochrome a (Fe3+) is 0.29 V. Is this reaction favorable or not? cytochro cytochrome cl (Fe?") + cytochrome a (Fe) → cytochrome a (Fe?") + cytochrome cl (Fe) A. Favorable B. NOT favorable QUESTION 13 Which of the following is true regarding the activity of phosphofructokinase (PFK)? 1. It is used by glycolysis and gluconeogenesis II. It is...
Can coils be assumed to be resitive only under steady state dc conditions? Explain why (Experiment: determination of the resitance of a coil when a soft iron rod is placed between it)
4. Determine i and v 4. Under the steady-state DC conditions, find i and v in the following circuit. I amH m- SMA 6 33ok" v — Згол
A Wet solid is to be dried in a tray dryer under steady-state conditions from a free moisture content of X2 =0.50 kg H20/Kg dry solid to X2 =0.015 kg H20/kg dry solid. The dry solid weight is 70 kg dry solid and the top surface area for drying is 4.654 m2. Slope = 2 and y-intercept = 1.5 a) Calculate the time of drying in falling rate period using integrating (10 pts) b) Calculate the time of drying using...
1. For the circuit shown, find Vc under DC steady state conditions. ic = C4046, v. = L di(t) dt 112 522 m 12 V ( + vc +1F
2. The equilibrium and steady state conditions before and after illumination of a silicon semiconductor are characterized by the energy band shown in figure below. Determine for before and after illumination: (Assume room temperature, and use the semiconductor parameters given in the textbook) a) no and po the equilibrium carrier concentrations b) n and p under steady state conditions. c) No? d) e) Do we have low injection condition when the semiconductor is illuminated? What is the resistivity of the...
How is blood glucose concentration maintained at steady state conditions? please answer in text
23. What is the correct order of increasing reactivity for these substrates under Sn1 conditions? A) III <I<<1 B) IV <ll<IV <1 C)I<ll<lll <TV D) IV <|| <I<li
1. An n-type silicon bar of length L is maintained under steady state conditions such that δpn(0)-6pno-1012/cm3 and δpn(L)-0. The Si bar is uniformly doped with N.-1016/cm3 at room temperature. No other photo-generation of processes occurring inside the bar. a) Do low level injection conditions prevail? Explain b) Show the variation of minority carrier concentration with respect to x. c) How much is n(x)? d) What is the position of the quasi-Fermi level inside the bar at (i) x-0, and...