Answer:
The amino acids would get - serine, arginine, glycine, cystine, tryptophan, and a stop codon.
Explanation:
Amino acids are coded by the triplet codes such as UAG, AUG, and other codes. These codes make 20 amino acids inside the body,. A single amino acid can be coded by various codes. In addition, there are stop and initiation codons are also found.
There are 64 codons or triplet codes and 16 of them have U in second reading form and if these are switch with G then the amino acid would be -
serine (2), arginine (6), glycine (4), cystine (2), tryptophan (1), and a stop codon (1).
Answer:
The osteoblasts, which should have been building the new bone
Explanation:
Osteoblast are the cells that build bones by secreting the extracellular matrix for bone tissue. These cells secrete components such as collagen fibres and inorganic electrolytes that together make the matrix of bone tissue. Absence or inactivity of these cells could prevent the formation of new bone after fracture. Hence, doctors should target osteoblasts.
Answer:
Gram positive bacteria have cell walls composed of thick layers of peptidoglycan. Gram positive cells stain purple when subjected to a Gram stain procedure. Gram negative bacteria have cell walls with a thin layer of peptidoglycan.
The water molecules labeled A in Figure 4.1 are going to the thylakoids to take part in Light-Dependent Reactions.
The interior membrane structure of the chloroplast is composed of interconnecting disc-like sacs called thylakoids. They are discovered floating in the stroma. Grana are stacks of thylakoids that are arranged in a particular way. The thylakoid membrane contains chlorophyll, a photosynthetic pigment that absorbs light during photosynthesis.
The interior membranes of cyanobacteria and chloroplasts, known as thylakoids, serve as a platform for the photochemical reactions that take place during photosynthesis.
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