In eukaryotes; the cytosal (gycolysis) and the mitochondria (Krebbs or Citric Acid Cycle). The inner mitochondria membrane for the electron transport chain. Together these three make up the respiration.
In prokaryotes: the cytosal
Bacteria that do not require aerobic respiration are known as anaerobic bacteria. These bacteria can survive and grow in the absence of oxygen by using alternative electron acceptors in anaerobic pathways such as fermentation or anaerobic respiration. Examples of anaerobic bacteria include Clostridium and Methanogens.
Respiration does not take place in the mitochondria of bacteria.
The site of aerobic cellular respiration is primarily within the mitochondria of a cell. Mitochondria are known as the powerhouse of the cell due to their role in producing energy in the form of ATP through the process of aerobic respiration.
Aerobic bacteria have a competitive advantage in an oxygen-rich environment because they can use oxygen as a final electron acceptor in their respiration process, which generates more energy than anaerobic respiration. This allows aerobic bacteria to outcompete anaerobic bacteria and thrive in oxygen-rich conditions.
Anaerobic respiration is carried out by organisms such as bacteria, archaea, and some fungi that can thrive in environments with low or no oxygen. These organisms generate energy through processes like fermentation or anaerobic respiration in the absence of oxygen.
Aerobic Respiration is a respiration of a bacteria with oxygen. Glucose + Oxygen --> Energy + Water + Carbon Dioxide Anaerobic Respiration is a respiration of a bacteria without the presence of oxygen. Glucose -- > Energy + Carbon Dioxide -----by vigneshsherlekar Aerobic Respiration is a respiration of a bacteria with oxygen. Glucose + Oxygen --> Energy + Water + Carbon Dioxide Anaerobic Respiration is a respiration of a bacteria without the presence of oxygen. Glucose -- > Energy + Carbon Dioxide -----by vigneshsherlekar
Bacteria that do not require aerobic respiration are known as anaerobic bacteria. These bacteria can survive and grow in the absence of oxygen by using alternative electron acceptors in anaerobic pathways such as fermentation or anaerobic respiration. Examples of anaerobic bacteria include Clostridium and Methanogens.
aerobic bacteria use oxygen based respiration, anaerobic bacteria use either nonoxygen based respiration (e.g. nitrogen, sulfur) or fermentation.
In bacteria, cellular respiration occurs in the cytoplasm.
aerobic bacteria use oxygen based respiration, anaerobic bacteria use either nonoxygen based respiration (e.g. nitrogen, sulfur) or fermentation.
aerobic bacteria use oxygen based respiration, anaerobic bacteria use either nonoxygen based respiration (e.g. nitrogen, sulfur) or fermentation.
anaerobic respiration
Chloroplasts are the site of photosynthesis. Mitochondria are the site of aerobic cellular respiration.
Bacterial metabolism is based on anaerobic fermentation not aerobic respiration.
Respiration does not take place in the mitochondria of bacteria.
Tetanus bacteria use anaerobic respiration. This means they do not require oxygen to generate energy. Instead, they use alternative electron acceptors such as nitrate or fumarate for their respiration process.
The plasma membrane of a mitochondrion, forming the surface of this organelle, is the site of many important steps of cellular respiration.