Assuming that this question makes reference to the survivability of the two moth variations, we can confirm that the brown-colored moth will be better adapted to survive in the winter months.
<h3>Why are the brown moths more likely to survive?</h3>
This has to do with their ability to better hide from predators. As described in the question, their primary predator are birds that hunt them while resting on the tree bark. This means that the white-colored moths will stand out against the dark tree bark and be easier prey for the birds. This will eventually lead to all the moths in the area being brown-colored through the process of natural selection.
Therefore, we can confirm that the brown-colored moth will be better adapted to survive in the winter months due to their ability to hide from predators.
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It is true that an organism that is asymmetrical can not be divided into identical or mirror images.
Movement and balance are monitored by activity in the cerebellum.
<h3>What is meant by the cerebellum?</h3>
The cerebellum, also known as the "little brain" because it resembles a miniature cerebrum, is in charge of balance, movement, and coordination. The pons and medulla, along with the midbrain, are commonly referred to as the brainstem. The brainstem receives, sends, and coordinates messages from the brain.
The cerebellum is the area of the brain in charge of coordinating voluntary movements. It is also in charge of a variety of functions, including motor skills like balance, coordination, and posture.
The cerebellum is important for maintaining balance by making postural adjustments. It modulates commands to motor neurons based on input from vestibular receptors and proprioceptors to compensate for changes in body position or muscle load.
Therefore, the correct answer is option B) cerebellum.
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Answer:
C)
Explanation:
separation of the enzyme and the products of the reaction.
Because it is easily accessible and has a mild immune response, the retina makes a good target for gene therapy.
- In a mouse model, the inner retina was highly effectively transduced by an intravitreally injected adeno-associated virus (AAV) vector.
- The vitreous and internal limiting membrane (ILM) operated as obstacles to transduction in large animals, reducing the efficacy of retinal transduction.
- Before administering AAV vectors, we performed vitrectomy (VIT) and ILM peeling on cynomolgus monkeys to get around these obstacles.
- The findings suggest that surgical ILM peeling prior to AAV vector delivery would be beneficial for retinal disease treatment and safe for effective transduction of the nonhuman primate retina.
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