Experience a gradual reduction of chromosome length with each replication cycle.
In a eukaryotic cell specialized for hormone secretion, you would expect the Golgi apparatus and endoplasmic reticulum to be particularly abundant. These organelles are involved in the production, processing, and packaging of hormones before they are released from the cell. Additionally, secretory vesicles would also be abundant as they are responsible for transporting the hormones to the cell membrane for release.
You would expect to find a membrane-enclosed nucleus in eukaryotic cells, which are found in plants, animals, fungi, and protists. Eukaryotic cells have complex structures with specialized organelles like the nucleus that are surrounded by a membrane.
The Mitochondria are used to make ATP, or energy. Well, if the Mitochondria were to be destroyed, i would say that the cell will soon stop storing energy and probably die.Cellular respiration
Without eukaryotic cells, complex organisms would not exist as they are essential for the development of multicellular life. Eukaryotic cells have specialized organelles like the nucleus and mitochondria, crucial for functions such as DNA control and energy production. Overall, the absence of eukaryotic cells would hinder the complexity and specialized functions required for complex organisms to thrive.
The presence of membrane-bound organelles, such as the nucleus, mitochondria, and endoplasmic reticulum, would provide the best evidence that a cell is eukaryotic. Prokaryotic cells lack membrane-bound organelles and have a simpler internal structure compared to eukaryotic cells.
Eukaryotic organelles would include:nucleolusmitochondriachloroplast(only photosynthetic organisms)endoplasmic reticulumgolgi complexvacoules
In a eukaryotic cell specialized for hormone secretion, you would expect the Golgi apparatus and endoplasmic reticulum to be particularly abundant. These organelles are involved in the production, processing, and packaging of hormones before they are released from the cell. Additionally, secretory vesicles would also be abundant as they are responsible for transporting the hormones to the cell membrane for release.
Telomerase maintains the telomeres of chromosomes in order to prevent cell death. This enzyme added sequences onto the ends of the chromosomes, thereby preventing extreme shortening and loss of genetic material. In a way, telomerase would give cells immortal life, by continuously regenerating its ends. However, telomerase are usually inactive in the human body because normal cells do not divide frequently, and therefore, the chromosomes do not shorten.
You would expect to find a membrane-enclosed nucleus in eukaryotic cells, which are found in plants, animals, fungi, and protists. Eukaryotic cells have complex structures with specialized organelles like the nucleus that are surrounded by a membrane.
The Mitochondria are used to make ATP, or energy. Well, if the Mitochondria were to be destroyed, i would say that the cell will soon stop storing energy and probably die.Cellular respiration
There are a few organelles that would only be found within a cell that is eukaryotic and autotrophic. They are chloroplasts and a central vacuole.
You would expect to find a large number of mitochondria in an eukaryotic cell that needs to produce a large amount of ATP. Mitochondria are the powerhouses of the cell and are responsible for producing ATP through cellular respiration. They are abundant in cells with high energy demands, such as muscle cells.
It is believed that extreme shortening of chromosomes due to genetic abnormalities may actually trigger cancer. Such frequent shortening of the telomeres may actually cause the telomerase enzyme to activate. This may sound like something good for the cell, but in reality, the telomerase can aid in preserving cancerous cells, giving them infinite life so that they may divide and proliferate.
The body would most likely be lacking in a brain.
The letter "y" in eukaryotic is part of the Greek word "karyon" which means "kernel." The kernel refers to the nucleus of eukaryotic cells.
A cell is either prokaryotic (cario would be the nuclear membrane) or eukaryotic.Prokaryotic cells would be archeabacteria and eubacteria whereas everything else would be eukaryotic.
Since animals are eukaryotes, and a goldfish is an animal, you can assume that a goldfish would be eukaryotic rather than prokaryotic.