Answer:
Thermophilic bacteria adjust the fluidity of their plasma membrane by increasing the distinct fatty acids and polar carotenoid content.
Explanation:
Thermophilic bacteria adjust fluidity of their plasma membrane by increasing the following content in it;
- Branched iso-fatty acids
- Long-chain fatty acids
- Saturated fatty acids
- Polar carotenoid content
Interestingly, the thermophilic bacteria that grow above 70°C possess lipid species such as diether, tetraethers, and tetra esters.
A) Populations
B) Genes
C) Individuals
D) Communities
<em>A population is defined as:</em>
<em>A) all individuals of all species located throughout the world</em>
<em>B) all individuals of the same species located in a given geographic region</em>
<em>C) all individuals of the same species located throughout the world.</em>
<em>D) all individuals of all species located in a given country.</em>
<em>E) </em>those individuals of the same species that have an identical genetic makeup.
The allele frequency of a population is the:
A) sum of all genes in that population.
B) relative proportion of a given allele in that population.
C) number of different types of alleles in that population.
D) number of all alleles in that population.
Glucose enters the cell during the glycolysis process. Two pyruvate, which are required for the following step, are produced by the cell after it passes it via a series of chemical processes. Furthermore, it produces two ATP and two NADH, which are then transported to the mitochondria.
<h3>What activity causes the majority of the cell's ATP production?</h3>
About thirty-two ATP molecules are produced for every oxidised glucose molecule during cellular respiration, which takes place mostly in the mitochondrial matrix.
The citric acid cycle, the second stage of aerobic cellular respiration, is the mechanism responsible for the production of both NADH and FADH2. Glycolysis, the citric acid cycle, and the electron transport chain are the three basic processes that make up aerobic cellular respiration.
ATP is generated during the glycolysis phase.
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Answer:
Dominance Hierarchy
Explanation:
Dominance hierarchy is when the lead male and female are given preferential treatment to resources such as food and potential mates.
Dominance hierarchy forms as a way for animals to coexist in an environment where threats are constant and resources like food, water, mates, and shelter are limited. As a group, members in the dominance hierarchy have access to more resources than they could obtain as individuals and can better defend their territory from threats.
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