The cloud precipitates; starts raining
For food... because the eat worms and seeds and other things
Answer:
Each group of three bases in mRNA constitutes a codon, and each codon specifies a particular amino acid (hence, it is a triplet code). The mRNA sequence is thus used as a template to assemble—in order—the chain of amino acids that form a protein.
Explanation:
The genes in DNA encode protein molecules, which are the "workhorses" of the cell, carrying out all the functions necessary for life. For example, enzymes, including those that metabolize nutrients and synthesize new cellular constituents, as well as DNA polymerases and other enzymes that make copies of DNA during cell division, are all proteins.
In the simplest sense, expressing a gene means manufacturing its corresponding protein, and this multilayered process has two major steps. In the first step, the information in DNA is transferred to a messenger RNA (mRNA) molecule by way of a process called transcription. During transcription, the DNA of a gene serves as a template for complementary base-pairing, and an enzyme called RNA polymerase II catalyzes the formation of a pre-mRNA molecule, which is then processed to form mature mRNA (Figure 1). The resulting mRNA is a single-stranded copy of the gene, which next must be translated into a protein molecule.
Answer:
The two molecules that enters the Krebs cycle that carry out high energy electron are NADH and FADH2.
Explanation:
Both NADH and FADH2 are reducing agent.They are the reducing form of NAD+ and FAD.
NAD+ and FAD act as coenzymes and enter into krebs cycle and get reduced into NADH and FADH2 by taking high energy electrons.
Both NADH and FADH2 then enters the Electron Transport Chain to be converted into their original form that is NAD+ and FAD.
