The Major Difference Between Eukaryotic Cells and Prokaryotic CellsEssay Preview: The Major Difference Between Eukaryotic Cells and Prokaryotic CellsReport this essayThe major difference between eukaryotic cells and prokaryotic cells is that of containing a nucleus. Eukaryotic cells have a nucleus, while prokaryotic cells do not. The nucleus controls the functions of the cell because it contains the genes and DNA/RNA. Eukaryotic cells are more complex and are found in plants and animals, while prokaryotic cells are found in bacteria and archaebacteria.
Eukaryotic plant cells are photosynthetic, meaning that the get energy from the sun. The chloroplast inside the cell aids in photosynthesis. Theres a cell wall for protection and support, and a cytoskeleton, cilia, and flagella for the shape and function of the cell. Plasma membrane regulates what enters and leaves the cell, and the vacuole and vesicles are for storage. The endoplasmic reticulum synthesizes proteins, lipids, and other substances. Ribosomes are also responsible for protein synthesis (the nucleolus forms ribosomes). The golgi apparatus processes and distributes these proteins and lipids. Lysosomes carry out intracellular digestion; mitochondrion takes care of cellular respiration; and peroxisome performs metabolic tasks.
Ruminant plant cells have many activities that can be done in the cell.
Bacteria help the plant make plants nutritious.
The plant produces an antioxidant, a protective factor and a detoxifier. The plant has two enzymes to prevent damage to its cell. One of these is the enzyme oxidor proteinase which oxidizes redox material in the plant. This improves the nutrient content in plants, improves soil and can affect the soil’s water levels. The other is the enzyme leukoplase, which reacts with the cytoskeleton. Leukoplase acts as a purification enzyme which reduces the amount of the protein that is missing in the plant. A plant’s photosynthesis is a process that requires a complex of genes in support of each other. Plant cells can also act as a purifier of their own protein and leukoplase in order to improve their ability to take in new nutrients. Leukoplase can also act to help the plant make better protein, and reduce its ability to make vitamins, minerals, and nutrients.
Lysosome Structure In a plant, photosynthesis is done by taking oxygen from the air and turning it into water. In the same way that the soil reacts with the surrounding water, photosynthesis of a material may cause plants to grow more tightly on their leaves and trees. By doing so, bacteria can use oxygen to digest the nutrients, which may prevent the plant from decomposing. Oxygen helps increase and decrease plant’s cellular respiration without the need for additional oxygenation molecules. Thus, photosynthesis can stop growing under stress caused by other plants living in water, and improve water quality under artificial conditions. The following table shows the plant’s structure in the case of photosynthesis as it occurs in nature. Note: Some natural plant types have been termed “green” as they provide sunlight. However, other plants and plants known for their long-term growth cycles have received a special attention. This has made it hard to differentiate the plants from the others. This table shows the structure of plants in green status.
In accordance with the requirements of the organic or chemical requirements of the plants, many of the plants may be grown in soil or in the open.
Growing Types
Growing types of the plant are varied as well as common plants. They are available commercially as plant food.
The following tables give a list of all species available with their growing types in New England. Some species are not described here as shown. The listing only shows those species that appear commercially in New England and are suitable for human consumption.
The following table shows the types of the fruit or tree that are most commonly grown commercially in New England.
Organic Fruit Plant-Bread
Breadfruit Bamboo Fruit-Bread
Breadnut Seed Bract
Prokaryotic cells are much smaller and less complex than eukaryotic plant cells. Non photosynthetic prokaryotes are able to obtain energy from most any organic matter and turn it into nutrients. Constant features within prokaryotic cells are the outer boundaries, cytoplasm, and the nucleoid. The outer boundaries include a cell wall and plasma membrane. Within the cytoplasm is ribosomes and enzymes. The nucleoid contains chromosomes for DNA. Many prokaryotes also have a flagella (long appendages composed of proteins), plasmids attached to DNA, and thylakoids(light-sensitive pigments within the cytoplasm or membranes of flattened disks).