Answer:
B.Shelter
Explanation:
Density is defined as mass, Shelter is the only thing that did not contain mass
Answer:
Makali may produce only small amounts of a non-mutated (wild-type) GALT enzyme.
Makali may have normal amounts of GALT, but the enzyme may be mutated.
Explanation:
Makali is lactose intolerant because of his ancestry. Because of this he is not able to digest any lactose which indirectly protected him from galactosemia. Thus he must avoid consuming galactose. He has a low GALT or galactose 1‑phosphate uridylyltransferase activity. He has a normal amount of GALT and may produce only small amounts.
Answer:
The Correct option is E "End-product inhibition"
Explanation:
the given model is both allosteric hindrance and final result restraint. This is on the grounds that allosteric hindrance is said when the higher centralization of finished result is dependable to give the sign to stop the combination. As the finished result is restraining the combination of its own so it can likewise be called a final result restraint.
Henceforth, the right choice is (E).
Answer:
According to Davson-Danielli model, the phospholipid bilayer is sandwiched between two globular protein layers. According to this model, non-polar portions of proteins separate the polar portions of phospholipids from water, it causes the bilayer to get dissolve.
This is the reason why membrane protein could not exist in such manner.
Answer:
The correct answer is E.
Explanation:
The options are incomplete, here are the complete options:
A) Both populations would be large and diverse, retaining all of their original alleles in their original frequencies.
B) Both populations would be very small and genetically uniform, having lost many of their original alleles.
C) The population in location A would be large and diverse, retaining all of its alleles in their original frequencies. The population in location B would have reduced genetic diversity and different allele frequencies than it did originally.
D) The population in location A would be large but would show a reduction in genetic diversity and altered allele frequencies. The population in location B, however, would retain its original genetic diversity and allele frequencies.
E) The population in location A would be large, while the population in location B would be small, but both would be equally diverse genetically and have the same allele frequencies as one another.
The answer is E because upon examining the example given in the question, we can say that after reproducing several generations, the flowers in both locations are going to go back to their original numbers and the location A population will be large, location B population will be small but they will not be any different genetically than they were before. They will retain their allele frequencies and differences.
I hope this answer helps.