Answer: Transcription factor
Explanation:
In the two-hybrid screening technique, the type of protein that is separated into two different domains to determine if two other proteins attached to these domains will interact is called the transcription factor.
Transcription factors are the proteins that helps in the conversion of DNA into RNA or their transcription. Transcription factors simply consist of a large number of proteins, that initiate are used in regulating gene transcription. It should be noted that a characteristics of the transcription factors is the possession of DNA-binding domains.
Both represent physical weathering.
It can be answered through an investigation.
Explanation:
The question ''Which of the Great Lakes is the largest body of water'' is a good scientific question because it is a question that can be answered through investigation. To answer this question, a scientist, or a person that has it as an interest simply needs to go on terrain and do the research, or can simply acquire data that is already collected. Through it, it can be determined which of the Great Lakes is the largest body of water, which is the second largest etc.
The five Great Lakes are:
- Lake Superior
- Lake Hudson
- Lake Michigan
- Lake Erie
- Lake Ontario
There are five lakes that consist the Great Lakes, and all of them have formed in the same period and through the same process. The lakes all have glacial origin, and all of them have formed when the last Ice Age ended. The largest of the Great Lakes is Lake Superior, while the smallest is Lake Ontario.
Learn more about Lake Superior brainly.com/question/10888882
#learnwithBrainly
Because there is nothing to eat the tertiary consumers. If there population gets to big, they will die out so they must stay small.
Answer: If a husband and wife who are both carriers of the sickle-cell anemia allele (Ss) but do not have the disease decide to have a child, the offspring can be Normal (SS), carrier (Ss) or sick (ss) with the probability ¼, 2/4 (½) and ¼ respectively.
Explanation: If the mother contributes the dominant allele and the father also contributes the dominant allele, the genotype of the child will be SS. The probability is ¼. This means there is a 25% chance that a randomly selected offspring will be a normal child and will not have sickle-cell anemia.
If the mother contributes the dominant allele and the father contributes the recessive allele, the genotype of the child will be Ss. The probability is 2/4 or ½. This means there is a 50% chance that a randomly selected offspring will be a carrier of sickle cell anemia, but will not have sickle-cell anemia.
If the mother contributes the recessive allele and the father also contributes the recessive allele, the genotype of the child will be ss. The probability is ¼. This means there is a 25% chance that a randomly selected offspring will have sickle cell anemia.
Check attached image for illustrations.
