nuvleus, mitochondria,vacuoles, cell membrane plants have these 2 additional organelles: chloroplasts and cell walls
Eukaryotic organelles would include:nucleolusmitochondriachloroplast(only photosynthetic organisms)endoplasmic reticulumgolgi complexvacoules
In autotrophic organisms, you would expect to find chloroplasts, which are the organelles responsible for photosynthesis. These organelles contain chlorophyll, allowing the organism to convert light energy into chemical energy. Additionally, autotrophs may have other specialized structures related to photosynthesis, but chloroplasts are the key organelles exclusive to this group.
Organelles are specialized structures within cells that perform distinct functions, such as energy production, protein synthesis, and waste processing. A statement that is not true of organelles would be that they can function independently outside of the cell. Organelles require the cellular environment for their activities and are integral to the overall functioning of the cell. Additionally, organelles are not found in all types of cells; for example, prokaryotic cells lack membrane-bound organelles.
Yes, animals belong to the domain Eukaryota and have mitochondria, which are membrane-bound organelles responsible for producing energy in the form of adenosine triphosphate (ATP) through cellular respiration.
Chloroplasts and mitochondria work together in plant cells to support energy metabolism. Chloroplasts capture sunlight and convert it into chemical energy through photosynthesis, producing glucose and oxygen. This glucose serves as a fuel source for mitochondria, which then perform cellular respiration to generate ATP, the energy currency of the cell. Together, these organelles facilitate the flow of energy from sunlight to chemical energy and finally to usable energy for cellular activities.
That would be Chloroplasts.
Yes, cellular metabolism can occur within organelles. For example, cellular respiration takes place in the mitochondria, while photosynthesis occurs in the chloroplasts. Organelles provide specific environments for metabolic reactions to take place efficiently.
Mitochondria would be present in large numbers in cells that require a lot of energy, as they are the powerhouse of the cell where energy is generated through cellular respiration. Additionally, cells in need of a lot of energy may also have a higher number of ribosomes, as they are responsible for protein synthesis which is vital for various cellular functions.
Eukaryotic organelles would include:nucleolusmitochondriachloroplast(only photosynthetic organisms)endoplasmic reticulumgolgi complexvacoules
Yes, animals belong to the domain Eukaryota and have mitochondria, which are membrane-bound organelles responsible for producing energy in the form of adenosine triphosphate (ATP) through cellular respiration.
In both plant and animal cells, mitochonria are responsible for energy transfer. They are the sites of the a metabolic process in which ATP is generated from extracting energy from sugars, fats, and other fuels.In plant cells only, chloroplasts are responsible for energy transfer; they are the sites of photosynthesis.
Mitochondria are certainly important but so are other organelles like ribosomes, lysosomes, Golgi apparatus, etc. It all depends on what the cells primary function is. For any one individual cell, the mitochondria probably gives way to the nucleus as it has the instructions on how to create any other organelles. However the cell would not be able to function if any of the organelles are missing.
ATP is needed for cellular energy production because it is the main energy currency in cells. It provides the energy necessary for various cellular processes, such as metabolism, growth, and movement. Without ATP, cells would not be able to function properly and would eventually die.
Mitochondria are organelles that all of your cells contain. These organelles role is to harness energy for the cell through different chemical reactions. If all of your mitochondria "die" or more likely stop converting energy your cells would no longer have any energy, and without energy life becomes rather tough. I don't mean that in a you're tired type of way, but rather a cellular death type.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.