Answer:
<h2>i) C-1
</h2><h2>ii) C-3
</h2><h2>iii) C-3
</h2><h2>iv) C-2 (methyl group)
</h2><h2>v) C-4
</h2><h2>vi) C-4
</h2><h2>vii) Equally distributed in C-2 and C-3.</h2>
Explanation:
i) In Fructose-1,6-bisphosphate
, initial incorporation of 14^C occurs at C-1
ii) In Glyceraldehyde-3-phosphate, initial incorporation of 14^C occurs at C-3
iii) In Phosphoenolpyruvate, initial incorporation of 14^C occurs at C-3
iv) In Acetyl-CoA, initial incorporation of 14^C occurs at C-2 (methyl group)
v) In Citrate, initial incorporation of 14^C occurs at C-4
vi) In a-ketoglutarate, initial incorporation of 14^C occurs at C-4
vii) in Oxaloacetate, initial incorporation of 14^C occurs at Equally distributed in C-2 and C-3.
They all evolved from LUCA (the Last Universal Common Ancestor).
Or, in better terms, they are all living organisms.
no I don't have it as I am studying in 5th grade
Answer:
The summary of something like the particular question is demonstrated in the following portion on either the clarity.
Explanation:
- Inspiration depends on either the diaphragm contracting, as well as the influence including its external intercostal has been limited throughout normal breathing.
- Maximum inhalation or even just expiration time depth, as well as rate, are fairly directly proportional to one another because.
- We may link the whole observation to something like the sequence of expiratory versus inspiratory movement as it takes much longer than either the inspiratory speed throughout our sample since expiration becomes passive yet requires having to return to something like the steady levels.
