anaerobic respiration
Anaerobic bacteria such as certain strains of Escherichia coli and Clostridium are commonly used for anaerobic respiration in laboratory experiments.
The first forms of life that produced ATP likely used pathways similar to glycolysis or anaerobic respiration. These pathways are simpler and do not require oxygen, making them more likely to have evolved early in the history of life on Earth.
The following are organisms that perform "Anaerobic Respiration": -bacteria -fungi -yeast -animal cells that lack oxygen( for example, if you are running and don't have enough oxygen, you will most likely perform anaerobic respiration).
Anaerobic respiration likely evolved first because ancient prokaryotic organisms lived in environments with low oxygen levels. These organisms needed a way to generate energy without oxygen, leading to the development of anaerobic respiration pathways. It was a simpler and more ancient metabolic process compared to aerobic respiration.
Anaerobic respiration likely evolved before aerobic respiration. Anaerobic pathways are considered more ancient and can be traced back to early prokaryotic organisms. Aerobic respiration evolved later as a more efficient process that became advantageous with the presence of oxygen in Earth's atmosphere.
cytoplasm -> nucleus
The first living cell, being the first species in existence would not have had a kingdom as a kingdom is a collection of species. It may have taken a very long time for the first cell types to diverge into modern Bacteria, Eukarya or Archaea. However it was most definitely similar to bacteria. It would have had no nucleus; the DNA (or more likely RNA) all assorted loosely in the cytoplasm. It would have had no organelles and no complex metabolic pathways like aerobic respiration or photosynthesis. It is difficult to know what Kingdom the first life fell under, however, Bacteria is probably the best notion.
The question is incomplete. No options are given (for which of the following) to answer the question.
Intracellularly: When respiration proceeds in absence of molecular oxygen in the animal cells; Or Extracellularly: When Lactic Acid Bacteria grow in Lactose containing substrate.
false ,plants need to under go respiration too in order to survive because the glucose created in photosynthesis stores energy and the plant needs to break the chemical bonds of glucose, which cellular respiration does, to get energy
The bacteria is likely to be Enterobacter or Serratia, as they are known to be Voges-Proskauer positive and Methyl Red positive. These two tests are commonly used to differentiate between different species of bacteria based on their metabolic pathways. Enterobacter and Serratia are both members of the Enterobacteriaceae family and typically show these characteristics.
in the cytoplasm