Pathogenic bacteria have evolved many toxins to attack eukaryotic cells and many of these have had valuable practical
Pathogenic bacteeria have evolved many toxins to attack eukaryotic cells and many of these have had valuable practical etc
Microtubules are found in Eukarytotic cells. However, some archeabacteria have been found to contain microtubule-like structures but these are not true microtubules.
Michelle can look for several distinguishing features: eukaryotic cells typically have a nucleus, membrane-bound organelles, and are generally larger and more complex compared to prokaryotic cells. On the other hand, prokaryotic cells lack a defined nucleus and membrane-bound organelles, often have a cell wall, and are generally smaller and simpler in structure. Additionally, eukaryotic cells may have multiple linear chromosomes while prokaryotic cells typically have a single circular chromosome.
yes, DNA is found in the Nucleoid Region, then there are Plasmids, which also contain genetic material.
Chloroplast cant be classified as a cell, but some research says that it may have been prokaryotic ages ago, as with mitochondria.
Pathogenic bacteeria have evolved many toxins to attack eukaryotic cells and many of these have had valuable practical etc
Microtubules are found in Eukarytotic cells. However, some archeabacteria have been found to contain microtubule-like structures but these are not true microtubules.
-Mitochondria are organelles within eukaryotic cells -Mitochondria themselves are not cells, but are believed to have once been a cell themselves because they have a double membrane and their own genetic material...DNA -Plant and animal cells are eukaryotic
human bones are eukaryotic cells as they contain well developed nucles.
Both of the cells received a benefit from living together. First, the pre-eukaryotic cells gave the small prokaryotes a source of shelter and protection from predators as well as fuel to make energy. Then, in return the prokaryotes gave the pre-eukaryotic cells a source of energy.
Mitochondria and chloroplasts are thought to have been incorporated into eukaryotic cells through endosymbiosis, a process where a larger cell engulfed smaller prokaryotic cells. Over time, these smaller cells evolved a mutually beneficial relationship with the larger cell, eventually becoming specialized organelles within the eukaryotic cell. This theory is supported by evidence such as the similarities between these organelles and modern-day bacteria, as well as their own DNA and ability to replicate independently within the cell.
Michelle can look for several distinguishing features: eukaryotic cells typically have a nucleus, membrane-bound organelles, and are generally larger and more complex compared to prokaryotic cells. On the other hand, prokaryotic cells lack a defined nucleus and membrane-bound organelles, often have a cell wall, and are generally smaller and simpler in structure. Additionally, eukaryotic cells may have multiple linear chromosomes while prokaryotic cells typically have a single circular chromosome.
HI The cell and the nucleus have been in existence for millions of years, but it was only when Robert Brown (1773-1858) came onto the scene that the world found out about the biological database that lies hidden in the cell nucleus.
The organelles found only in eukaryotic cells includes endoplasmic retculum, mitochondria, chloroplast, Golgi complex, lysosomes, endosomes, peroxisomes and glyoxisomes, and a distnct nucleus.
yes, DNA is found in the Nucleoid Region, then there are Plasmids, which also contain genetic material.
Adult stem cells have been found in the brain, the bone marrow, and in peripheral blood. They have also been found in skeletal muscle, teeth, and the heart.
Recently complex networks of fibrous protein structures have been shown to exist in the cytosol of eukaryotic cells. These network collectively form cytoskeleton.