Answer:
Central dogma explains the cellular utilization of genetic information on the basis of three processes and transcription and translation are two of such processes.
Explanation:
The genetic information is stored in DNA and is expressed into a genetic trait in the following direction: DNA--> RNA-->proteins. It includes three processes: DNA replication, transcription, and translation. DNA replication is the process by which the exact copies of the existing DNA molecules are synthesized in cells.
The sequence of a particular gene is copied into the nucleotide sequence of RNA by the process of transcription. The mature RNA then serves to specify the amino acid sequence of protein during the process of translation. In this way, central dogma explains that the genetic information stored in the DNA molecule is expressed in the amino acid sequence of proteins by the above mentioned three processes in a specific direction.
Gametes are formed through meiosis (reduction division), in which a germ cell undergoes two fissions, resulting in the production of four gametes.
Answer:
The dependent variable is: the temperature at which liquid boils.
Explanation:
The Dependent variable in a study or research is the variable that is measured after the modification or change in the particular research independent variable.
In this case, the independent variable is the treatment that liquid or water get which is the addition of 3 gm salt, and in the response to this treatment change in the boiling point of the liquid will be the dependent variable.
Thus, the correct answer is - the temperature at which liquid boils.
Using the graph provided with the question, we are able to find that that for a concentration of 270 micromol per kilogram, the calcification rate is 20 mmol calcium carbonate per meter squared per day.
Using this calcification rate,
30 = 20 * 1 * days
days = 1.5
The deposition will require 1.5 days.
Answer:
glycolysis that is the first step in cellular respiration
Explanation:
According to research :
Glycolysis is the metabolic pathway that converts glucose C₆H₁₂O₆, into pyruvate, CH₃COCOO⁻, and a hydrogen ion, H⁺. The free energy released in this process is used to form the high-energy molecules ATP and NADH. Glycolysis is a sequence of ten enzyme-catalyzed reactions. Wikipedia
