Answer: To adapt, the Japanese government has invested billions of dollars in rail transportation. The city has one of the most extensive rail networks in the world, and more than 10 million people take a train to work each day. Even delivery trucks bear little resemblance to their American versions, they are small and narrow, making them better able to navigate Tokyo’s cramped landscape.
Explanation:
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stay safe and stay happy
Answer:
This is an example of gene flow.
Explanation:
Notice that Brian did not release the frog in its original pond, but in a local one. Gene flow or gene migration can be described as the transfer of genetic variation from one population to another. It is an important way to transfer genetic diversity between different populations, and it usually takes place through the migration of members of a population. In this case, the frog did not migrate by itself, but was taken by Brian instead.
Disulfide bridges can be found in tertiary and quaternary structure levels of protein organization.
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What does a disulfide bridge in a protein do and what is its function?</h3><h3>
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Disulfide bonds or S-S bonds are other names for disulfide bridges. The establishment of these covalent bonds, which are formed between the sulfur atoms of two cysteine amino acids, stabilizes the tertiary and higher-order structure of proteins.
A frequent method utilized by nature to stabilize many proteins is the formation of disulfide bridges. These disulfide linkages are frequently observed in extracellular proteins that cells produce. The endoplasmic reticulum, an organelle, is where disulfide bridges are formed in eukaryotic species. When numerous proteins enter the secretory route for folding, disulfide linkages are formed between cysteine residues.
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Answer:
development of higher education for all
Explanation:
Answer:
increase in the number of neurons in the hippocampus
Explanation:
Studies shows that loss of number neurons in the hippocampus contribute to the pathophysiology of depression. Therefore, studies have been carried out to determine the effect of antidepressants on hippocampal neurons. Studies shows that antidepressants increase cell proliferation and also increase hippocampal neuron number i.e increased in the number of neurons in the hippocampus, by the process called neurogenesis.
Therefore, since Selective Serotonin Reuptake Inhibitors (SSRIs) is an antidepressant, when administered to rats it is most likely to find an increase in the number of neurons in the hippocampus when analyzing the brain tissues.
