Answer: I couldn't find the site, but I can tell you what each of these men, that way you can find them on your own :)
Explanation:
Using a bullfrog as an example
Their common name is Bull frog, their scientific name is Lithobates catesbeianus
Major physical structures and color are: Strong legs for jumping, buldge-y eyes, slick skin. They are usually greenish brown.
Oops. I just saw the Siberian wood frog bit.
I need to go, but I hope my bullfrog example will help you answer your questions for Siberian wood frog. :)
<span>B) It was converted to energy and used up. </span><span>
The biomass was converted into ATP to be used as the source of energy. Hence, tn the presence of oxygen, one glucose molecule has the energy to make up to 38 ATP. The ATP production is determined by the following steps, (-2 ATP) glycolysis preparatory phase, (7-9 ATP) glycolysis pay-off phase, (5 ATP) oxidative decarboxylation of pyruvate and (20 ATP) Krebs cycle. One glucose which has 38 ATP hence was the summation of all the process mentioned that took place. All these process take place under the cellular function of cellular respiration. </span>
Solution :
It is given that BigMoney Inc. had a major spill of an inorganic which contaminated the soil around the plant. The scientist in the BigMoney had developed a mechanism to remove the from the soil but they did not found any for the .
The reaction is :
a). So this is an oxidation reaction as in the reaction the hydrogen atom is removed from the molecule.
b). The acts as an electron donor as it is being oxidized. Any substance that oxidizes is called an electron donor.
c). The above reaction can be carried out by aerobic respiration and the enzyme that is involved is hydrogenase which consumes and it releases a proton out of the cell. The reaction can often occur in our biological cells. This is fermentation that is used in the anaerobic as well as aerobic respiration process.
d). In the production, the electron donor is hydrogen that is organic as the hydrogen will be used from the air or the soil. And the pathways will be chemolithotrophy or fermentation.
3) antibodies against the flu virus
1. The carrier proteins via which sugar comes into pancreatic beta cells have HIGHER Km when compared to the carriers via which sugar comes into muscle cells at fasting blood sugar levels.
Explanation: A high Km amount shows a low affinity for the substrate. The carrier protein (GLUT4), which is basically observed in muscle cells, do possess a stronger affinity for glucose (low km 1.8-4.8mM) thereby making sure that maximum glucose is efficiently transported in tissues in situations where glucose concentration drops. While the carrier proteins located in beta cells (GLUT2) do show a high km ~20mM, as a higher km promotes for glucose sensing.
2. In order for muscle cells to raise sugar import INSULIN MUST BE PRESENT.
3. Oh, and glucokinase has a HIGH Km when compared to hexokinase.
Explanation: Glucokinase do possesses a minimal affinity (higher Km) for glucose as it will only function in situations of increased glucose concentration in serum.
4. Proton pumps are required for the release of transferrin from the transferrin receptor and iron form transferrin.
Explanation: H+ ATPases reduces the pH of the vesicle and results in transferrin to produce iron.
5. Iron Reductases Convert the iron to the active form in which it may be exported.
6. This happens in the Lysosome.
Explanation: Ferric iron is transformed into ferrous iron (which is the active type) through the activities of ferric reductase.