Answer:
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Explanation:
its easy, its A
Answer:
Few crosses
The complexity of cat genetics
Crosses not controlled by the researcher
Explanation:
The purpose of this question is to determine why Megor Grendel is less famous than that of Gregor Mendel.
Gregor Mendel examined pea plants, which have a number of benefits for deducing genetic rules, including:
- The researcher has total control over the crosses.
- Because the peas have both self and cross-fertilization, it is possible to alter the crosses in the simplest way possible.
- Pea plants may be examined for a greater series of generations than cats or other animals.
- Because plant genetics is not overly complicated, several traits may be investigated at the same period.
As a result, the primary factors why Megor Grendel's experiments are not well-known:
- The presence of only a few crossings: It is impossible to establish a genetic theory with such a small number of crossings on the test subject of the organism.
- Cat genetics is too complicated therefore, the fur gene color on the X-chromosome, a characteristics mosaic inheritance. As a result, It is much too complicated to deduce an inheritance pattern.
- Crossings that the researcher cannot fully control. Unlike plants, crosses in animals cannot be totally controlled by the researcher.
As a result, it is impossible to draw any conclusions from them.
Answer: Plaques
Explanation:It’s used to describe the accumulation of different kinds of deposits on the teeth, which promote dental caries.
Climate is the main factor is determining<span> which </span>plants<span> can grow in a certain area, which in turn defines the </span>biome<span>. Temperature and precipitation are the two most important factors that </span>determine<span> a region's climate.
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A cell manages to form a rod shape, There is only one example of the more general subject of how a cell develops any shape, have dominated the study of bacterial morphology. An object has coccoid shapes.
The usefulness of bacterial form is further supported by two evolutionary theories. Earliest, shape has a vector through evolutionary time, with coccoid species deriving at the extremities of evolutionary lines and rod-like animals emerging first. A characteristic that develops gradually suggests that selective factors are at work. Second, prokaryotes from various genealogies may morphologically converge, suggesting that having a similar shape may be advantageous in some circumstances. In light of this, a variety of morphological differences can be seen in the Archaea, despite having a cell wall made of non-peptidoglycan.
Learn more about coccoid shapes bacterial here.
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