a daffodil that attracts insects for pollination
a butter squash that has high nutritional value
a rose that produces a delicious aroma
Answer;
an orange that has a prolonged shelf life
Explanation;
-Genetic engineering is the process of manually adding new DNA to an organism. The goal is to add one or more new traits that are not already found in that organism.
-Examples of genetically engineered (transgenic) organisms currently on the market include plants with resistance to some insects, plants that can tolerate herbicides, and crops with modified oil content.
-Genetic engineering works by physically removing a gene from one organism and inserting it into another, giving it the ability to express the trait encoded by that gene. It is like taking a single recipe out of a cookbook and placing it into another cookbook.
Genetic engineering is likely responsible for an orange that has a prolonged shelf life. This technology can be used to alter the DNA of an organism to give it new traits, such as slowing the ripening process in fruits.
The result most likely achieved through genetic engineering is an orange that has a prolonged shelf life. Genetic engineering is the process of manually adding new DNA to an organism to give it new traits. In the context of fruits and vegetables, this technology is often applied to develop species with desired characteristics. For example, a fruit like an orange could potentially be genetically engineered to slow down its ripening process, thus giving it a prolonged shelf life. This manipulation could help reduce waste and increase economic efficiency.
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Viruses are cells with either RNA or DNA.
Viruses are bundles of genetic material enclosed in a capsid.
Both viruses and bacteria are living organisms.
Answer:
Option C. Viruses are bundles of genetic material enclosed in a capsid.
Explanation:
Option A- False - Bacteria is about 100x larger than viruses.
Option B- False - Viruses aren't cells since they aren't living organisms.
Option D- False - Viruses are not living organisms.
B. The period of interaction beween the Islamic and Mongol empires.
C. The period between the Greek and the Roman dominance over European culture.
D. The period following the decline of the Roman Empire in Europe.
Answer: The period following the decline of the Roman Empire in Europe.
Explanation: A p e x
Answer:
Inbreeding and greater chance of passing deletereous mutations through generations
Explanation:
There are several reasons why small populations are more prone to genetic diseases. One of them is that in small populations there tends to be more inbreeding , that is breeding between individuals are closely related. Inbreeding increase the chances of offspring being affected by deletereus homozygous genotypes.
On the other hand, the acquisition of a deleterious mutation in a small population is more likely to be spread in that small population than in a large population.
The small population is prone to the disease more than the large population as the former have less diversity of organism and therefore there are fewer chances of occurrence of an organism that have resistance to the disease.
Further Explanation:
Genetic drift refers to the change in the allele frequency observed in the population due to random sampling. This may occur due to a bottleneck effect or Founder’s effect.
The allele frequency remains constant if the population follows the Hardy-Weinberg equilibrium.
There is more probability of occurrence of diversity in a population of large size that is the large population has an organism that has homozygous dominant allele, heterozygous allele, and homozygous recessive allele. So there is more probability that this population may have an organism having disease-resistant allele than the population of small size.
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Answer Details:
Grade: High school
Chapter: Evolution
Subject: Biology
Keywords:
Population, organism, resistance, disease, Genetic drift, allele frequency, random sampling, bottleneck effect, Founder’s effect, Hardy-Weinberg equilibrium, homozygous dominant allele, heterozygous allele, a homozygous recessive allele
Answer:
No, you would not go blind, even though the composition of emotional tears are different.
Answer:
Simply no, But when humans cry in response to stress, their tears contain a number of stress hormones and other chemicals. Researchers believe that crying could reduce the levels of these chemicals in the body, which could, in turn, reduce stress.