Question:Does your body get all its energy from the sun?
Answer: Yes, the body does get all the energy from the sun. The body obtains energy by consuming and digesting food that the plant or animal has been going through CR. When we eat animals that eat plants, the energy from CR transfers to the consumers.
Answer and Explanation:
Gregor Mendel, the father of Genetics, designed different types of methodologies to study and understand how traits are inherited. Therefore, he wondered if he'd be able to predict the inheritance of a single trait and its association to a specific gene.
Through the Principle of Independent Assortment, he explained how genes segregate (or separate) in homologous chromosomes during meiosis. During this process, the alleles of different genes are sorted in gametes and inherited independently. This results in genetic diversity and recombination.
For instance, he tested green and yellow peas which were either wrinkled or smooth. <u>This principle states that the offspring could have 'mixed' traits, for example green and wrinkled, green and smooth, yellow and wrinkled, etc.</u>
Answer:
natural selection
Explanation:
this is to help the existence of all the squirrels species
The defects in the mitochondria are leading to Nicole’s symptoms due to her body not receiving the proper energy provided by the mitochondria to sustain her body and its func±ons. The parts of the body that require the most energy, such as the heart, brain, muscles, lungs and GI tract would be most affected, which explains why Nicole is having these symptoms.
Complete question:
In pea plants, flower color is controlled by a pair of alleles where purple (P) is dominant to white (p). Stem length is controlled by another pair of alleles where tall (T) is dominant to short (t). These two allele pairs segregate independently. Suppose you have a pea plant that has purple flowers and tall stems and you wish to carry out a testcross in order to determine its genotype. Complete the predictions using the correct terms.
1. In order to carry out the testcross, you should cross your original pea plant with another pea plant whose phenotype is -------
2. If you examine 100 F₁ plants from the testcross and find that they all have purple flowers with tall stems, you should conclude that the genotype of your original pea plant is -------
3. If you examine 100 F₁ plants from the testcross and find that 44 have purple flowers with tall stems and 56 have purple flowers with short stems, you should conclude that the genotype of your original pea plant is -------
4. If you examine 100 F₁ plants from the testcross and find that 53 have purple flowers with tall stems and 47 have white flowers with tall stems, you should conclude that the genotype of your original pea plant is
-------
5. If you examine 100 F₁ plants from the testcross and find that 23 have purple flowers with tall stems, 26 have white flowers and tall stems, 24 have purple flowers with short stems, and 27 have white flowers with short stems, you should conclude that the genotype of your original pea plant is
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<u>Note:</u> You will find the complete answer and explanation in the attached file "peaplants1" due to technical problems.