Most plots DO NOT have a conflict because conflict creates instability or uncertainty for the characters.Question 7 options:
True
False

Answers

Answer 1

Answer: The right answer for the question that is being asked and shown above is that: "FALSE." Most plots DO NOT have a conflict because conflict creates instability or uncertainty for the characters. Most plots do have a conflict.

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in pole beans, green pods (G) are a dominate trait while yellow pods are a recessive trait. A bean plant with GG genotype is crossed with a second plant that has the gg genotype. if this cross produces 500 off spring how many of the offspring will be green
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A plant with the genotype TT is called _____.

homozygous
heterozygous
hybrid

Answers

If a genotype has two of the same alleles, as in two capital letters (two dominant alleles) or two lowercase letters (two recessive alleles), it is homozygous. If it was Tt, had one recessive allele and one dominant allele, it would be heterozygous.

When an individual has two of the same allele, whether dominant or recessive, they are homozygous.
so the answer is homozygous :)))
i hope this is helpful
have a nice day

According to the theory of _____________, mitochondria in cells today are the descendents of aerobic prokaryotes that used oxygen to generate energy.A) endosymbiosis
B) ingestion
C) mutualism
D) parasitism

Answers

Answer: A. endosymbiosis

The theory of endosymbiosis states that mitochondria in cells are once the descendants of aerobic prokaryotes. These prokaryotes used oxygen in order to generate energy. The mitochondria and the chloroplast are among the most important organelles that support endosymbiosis.

Answer:

Explanation:

Which is the purpose of transfer RNA?a. to code for protein synthesis
b. to carry the synthesized genetic information from the nucleus to the ribosomes
c. to synthesize proteins from RNA
d. to bring amino acids to the ribosomes to be assembled into proteins

Answers

a. to code for protein synthesis

RNA, also known as Ribonucleic acid, is the molecule that is used when coding and decoding genetic information. It similar to DNA and is assembled as a chain of nucleotides. An error in the coding of RNA can lead to the mutation of the genetic information or DNA. This means that the protein will not function as it should and lead to genetic defects in a species. Probably the best example of this is Down's Syndrome. This occurs in humans when there is an extra chromosome in the DNA.

to bring amino acids to the ribosomes to be assembled into proteins

The continents began to drift apart by the end of the _______ period

Answers

The continents, who are thought to come from one giant landmass called Pangaea, was said to start drifting apart in the early or middle jurassic period - roughly 175 million years ago. Experts say that that many of these continents are still moving up to now.

What steps are considered when constructing a recombination map using a three-point test cross?

Answers

Constructing a recombination map using a three-point test cross is a fundamental process in genetic mapping to determine the order and relative distances between three linked genes. Here are the general steps involved in this process:

1. **Select Appropriate Organism**: Begin by selecting an organism with traits controlled by three genes that you want to map. Ensure that these genes are located on the same chromosome.

2. **Create a Heterozygous Individual**: Start with an individual that is heterozygous for all three genes of interest (AaBbCc, for example). One chromosome should carry the dominant allele, and the other should carry the recessive allele.

3. **Perform Test Cross**: Cross this heterozygous individual with a homozygous recessive individual (aabbcc). This will produce progeny with a variety of allele combinations.

4. **Observe Progeny Phenotypes**: Examine the phenotypes of the progeny resulting from the test cross. Record the number of individuals with each phenotype. These phenotypes are crucial for calculating recombination frequencies.

5. **Calculate Recombination Frequencies**: Use the phenotypic data to calculate recombination frequencies between the three genes. Recombination frequency is the proportion of offspring that show a recombination of alleles (different from the parental combination).

6. **Determine Gene Order**: Analyze the recombination frequencies to determine the order of the three genes on the chromosome. The gene with the highest recombination frequency with the others is likely to be in the middle, while those with lower recombination frequencies are on the ends.

7. **Calculate Map Distances**: Calculate map distances between the genes based on the recombination frequencies. One map unit (centimorgan) corresponds to a 1% recombination frequency.

8. **Interpolate Cross-Over Frequencies**: If the recombination frequencies are not whole numbers, interpolate to estimate the exact cross-over frequencies between genes.

9. **Create a Recombination Map**: Construct a genetic map that shows the order and relative distances between the three genes. Include map distances in centimorgans.

10. **Validate the Map**: Perform statistical tests or additional crosses to validate the accuracy of the map.

These steps help geneticists create a recombination map, which provides valuable information about the genetic linkage and the physical arrangement of genes on a chromosome.

The horizontally oriented fold of dura mater that separates the occipital and temporal lobes of the cerebrum from the cerebellum is the ......