Answer: B
Explanation:
The observed differences between the groups most likely resulted from differences in the ability of the seedlings to produce amino acids.
Differences observed in the plant groups would most likely be due to their differing abilities to produce glucose, a monomer that forms cellulose and other sugars vital for plant functions. Other options such as amino acids, cellulose and DNA also play crucial roles in the plant's life processes.
The observed differences between the groups most likely resulted from differences in the ability of the seedlings to produce glucose. Glucose is a monosaccharide, or a simple sugar, that serves as the primary fuel for plants. Glucose monomers form structures like cellulose, which primarily make up a plant's cell wall, providing it with structural support. Glucose is also involved in the formation of other types of sugars such as sucrose and lactose when combined with fructose and galactose, respectively.
However, it's important to note that all the options given - glucose, amino acids, cellulose, and DNA - are monomers or polymers that play vital roles in the life functions of a plant. Amino acids are the building blocks of proteins, cellulose is a structural polysaccharide composed of glucose units, and DNA holds the genetic information of the plant.
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We design a model that explains how your experiment demonstrated the transfer of genetic material from father to offspring. In our model, we clearly identify where the transfer of genes from parents to children took place, and in this practical way, we explain heredity.
Heredity is the biological system of transmission of certain characteristics of living beings between generations. For the full functioning of this structure, genes are needed – a piece of DNA (deoxyribonucleic acid) that houses genetic information.
Some properties can remain inactive for generations, which does not represent their extinction, only the forgetting of one or several genes. However, this does not make it impossible for the carrier of the dormant gene to pass it on to their descendants.
In addition, genetic information is capable of disappearing as a result of environmental and climate change. In these cases, natural selection processes directly affect heredity.
With this drawing, it was possible to visualize how gene transfer occurs in a normal situation.
Learn more about Gene in brainly.com/question/787658
Answer: prokaryotic flagella use a rotary motor, while eukaryotic flagella use a complex sliding filament system.
Eukaryotic flagella are ATP-driven, while prokaryotic flagella can be ATP-driven (Archaea) or proton-driven (Bacteria).
Explanation: