I would like to ask what the cell wall structure of green algae is, which seems to be a bit special

Hello, green algae has a three-layer cell wall, and its most praised detoxification effect is also due to this. The middle and thickest cell wall, which binds toxins, is made up of cellulose-containing microfibers that form a tiny structure to which heavy metal molecules cling to the web. In addition, the German medical community found that the cell wall in the middle of the green algae contains a special substance sporopollein, which not only has the function of confirming poisons, but also has the characteristics of combining with various toxins without reversing, firmly grasping the toxins, excreting them from the body, and purifying the body.

The cell wall of green algae is composed of polysaccharides and cellulose and other layered structures, so it is relatively hard, and untreated green algae is not easy to digest by the human body. In the production process, the cell wall is specially broken, so that the cell wall is cracked but still retains the original tissue and nutrients, which can not only improve the digestibility of the green algae by more than 80%, but also quickly absorb and utilize the nutrients by the human body.

The cell wall of green algae is thicker than that of cyanobacteria, due to the existence of the cell wall, green algae can combine with harmful heavy metals, pesticides, antibiotics and other substances in the body and excrete from the body, and more importantly, the cell wall of green algae contains "acidic polysaccharides" that can induce the production of interferons related to the immune system.

Microalgae and green algae are not the same, they both belong to algae, and the microalgae in green algae are also called microalgae. Because microalgae is not a taxonomic name, it is not possible to compare the differences between the two.

1. Microalgae is a kind of autotrophic plant that is widely distributed on land and sea, rich in nutrients and high in photosynthetic utilization, and the polysaccharides, proteins, pigments, etc. produced by cell metabolism make it have good development prospects in the fields of food, medicine, genetic engineering, and liquid fuel.

The size of the algae varies greatly, and the microalgae that can only be distinguished under a microscope are called microalgae, so microalgae are not a taxonomic name.

2. Members of the phylum Chlorophyta, about 6,700 species. The ratio of photosynthetic pigments (chlorophyll a and b, carotene, lutein) is similar to that of seed plants and other higher plants. Typical green algae cells may or may not be motile.

With a **vacuole, the pigment is in the plastid, and the shape of the plastid varies depending on the species. The cell wall is made up of two layers of cellulose and pectin. Food is stored in the form of starch in the protein nucleus within the plastida.

Chlorella are mostly found in freshwater, often attached to submerged rocks and wood, or floating on the surface of stagnant water. There are also species that live in soil or seawater, and planktonic species are food or oxygen for aquatic animals**.

Not the same.

Microalgae refers to the single-celled algae in algae plants, because of their small individuals, so they are called microalgae; Whereas, green algae is a type of algae that is characterized by its green appearance and has unicellular and multicellular algae. They are both a general term for a large group of algae plants, they all belong to algae plants, the composition of the cell wall is exactly the same, and they are all composed of cellulose and pectin.

Therefore, the way they break the wall is the same.

Hope you help. ^_

There are unicellular, swarm, or multicellular; group stereotype or amorphousness; Multicellular individuals are spherical, branched and unbranched filamentous, flattened leaf-like, cup-shaped, and empty tubular shaped; With very few exceptions, the vegetative cells of green algae mostly have cell walls.

The outer layer of the cell wall is pectinous and the inner layer is fibrous; There is also chitin in the cell wall of the genus Bristle, Sphingalum and Trichlephinga.

The innermost layer of the cell wall of the order Pinalcophytes is composed of callosum; Usually with 1 to more nuclei.

There are vacuoles. In some groups of algae.

with distinct plasmodesmata; Each vegetative cell has 1 to several pigments, and the shapes of the pigments are diverse, including cup-shaped, star-shaped, ribbon-shaped, sheet-shaped, reticulated, granular, etc.; The vast majority of types of vegetative cells contain one or more protein nuclei, and a few species do not; Swimming cells have flagella of equal length or more.

There are unicellular, swarm, or multicellular; group stereotype or amorphousness; Multicellular individuals are spherical, branched and unbranched filamentous, flattened leaf-like, cup-shaped, and empty tubular shaped; With rare exceptions, the vegetative cells of green algae mostly have a cell wall, the outer layer of the cell wall is pectin, and the inner layer is fibrous; The cell walls of the genera Bristlea, Sphingalum and Trichlephinus also have chitin, and the innermost layer of the cell wall of the order Pinopodium is composed of callosum; Usually has 1 to more nuclei with vacuoles.

In some groups of algae have distinct plasmodesmata filaments; Each vegetative cell has 1 to several pigments, and the shapes of the pigments are diverse, including cup-shaped, star-shaped, ribbon-shaped, sheet-shaped, reticulated, granular, etc.; The vast majority of types of vegetative cells contain one or more protein nuclei, and a few species do not; Swimming cells have flagella of equal length or more.

Answer A point difference: In addition to the basic structure of cell membrane, cytoplasm and nucleus, plant cells also have cell walls, vacuoles and chloroplasts

Answer: In addition to viruses, organisms are composed of cells, but plant cells and animal cells have certain differences, from the analysis can be seen that plant cells in addition to the cell membrane, cytoplasm and nucleus and other basic simple plant structure, there are cell walls, vacuoles and chloroplasts, plants in the chloroplast of the cell photosynthesis of their own synthesis of organic matter, so the nutrition mode of plants is autotrophic In addition to the basic structure of cell membrane, cytoplasm and nucleus, the cells of algae also have cell walls, Vacuoles and chloroplasts, are also autotrophic, so algae belong to plants even though they do not have roots, leaves, and stems

Therefore, a comment: understand the characteristics of algae cells, combined with the analysis of the characteristics of plant cells, should be able to summarize the answer

Many people think that green algae is spirulina, wrong! Chlorella is not spirulina. Here's a closer look at the differences between the two:

Taxonomy of green algae: Chlorophyta, Chlorophyta, Chlorella, Chlorella, Chlorella.

Spirulina biotaxonomy: Bacterium, Cyanobacteria, Cyanobacteria, Trembling Phyta, Tremor Family, Spirulina spp.

Chlorella grows in freshwater (spirulina grows in saltwater), and from the theory of biological evolution, life is born in saltwater, evolved in freshwater, and grows on land, and freshwater is safer than saltwater. Green algae, which can be eaten by men, women and children. In the process of cultivating green algae in fresh water, it needs to be cyclically stirred, which is expensive to produce, while spirulina does not need to be stirred.

Chlorella are unicellular plants, eukaryotes, and have a nucleus (spirulina is a multicellular fungus, prokaryotic, nucleusless, and is a simple organism). Organisms that belong to unicellular cells are: humans, animals, plants, and some algae such as green algae, which are genetically related to human cells.

The size of green algae cells is small (spirulina cells are large, 100 times larger than green algae cells, and can be distinguished with a magnifying glass), and they need to be seen under a 600x microscope. Green algae cells are similar in size to human red blood cells, but the central ion structure is different, green algae cells are magnesium ions in the center, and human red blood cells are iron ions in the center.

Green algae cells have 3 layers of cell walls (spirulina does not have a cell wall, so there is no need to break the wall) and are very hard and composed of high fibers.

Chlorella growth factor CGF (spirulina does not have this special substance), a unique substance of green algae, is the only one that has this precious and unique ingredient, and no other organism in the world has found an extract with the same biological properties as CGF. CGF is rich in nuclear proteins, ribonucleic RNA RNA, deoxyribonucleic acid DNA, vitamins, amino acids, polysaccharides, complex and impermeable proteogies, enzymes, and a variety of plant hormones.

Chlorella is the plant with the highest nucleic acid content.

Chlorella is the most alkaline plant (it produces 3 times more alkaline than spirulina).

Chlorella is the plant with the highest chlorophyll in nature (5 times that of spirulina).

Chlorella contains naturally occurring biotin (spirulina not detected).

Chlorella does not contain iodine (spirulina contains iodine).

Source** "Chlorella Diet Therapy Network".

In addition to viruses, organisms are made up of cells, but there is a certain difference between plant cells and animal cells, and it can be seen from the analysis that plant cells have cell walls, vacuoles and chloroplasts in addition to the basic structures such as cell membranes, cytoplasm and nucleus, and plants carry out photosynthesis in the chloroplasts of cells to synthesize organic matter by themselves, so the nutritional mode of plants is autotrophic In addition to the basic structures such as cell membrane, cytoplasm and nucleus, algae cells also have cell walls, vacuoles and chloroplasts. It is also autotrophic, so algae belong to plants even though they do not have roots, leaves, stems

Therefore, a