Prokaryotic cells can yield a maximum of 38 ATP molecules while eukaryotic cells can yield a maximum of 36. In eukaryotic cells, the NADH molecules produced in glycolysis pass through the mitochondrial membrane, which "costs" two ATP molecules.
The site of ATP synthesis in eukaryotes is mitochondria. But as we know that prokaryotes lack membrane bound organelles therefore ATP synthesis in them takes place through different pathways.
Synthesis for prokaryotes occurs on the plasma membrane
Mitochondria are membrane-bound organelles found in eukaryotic cells but not in prokaryotic cells. Biochemical processes, such as respiration and energy production, occur in the mitochondria.
The ribosomes are the small organelles responsible for protein synthesis. They are found in both eukaryotic and prokaryotic cells, but are smaller in prokaryotic cells (70s vs 80s).
Normally, all of bacteria are prokaryotic without any exception. However, a prokaryotic bacteria can be changed to equip eukaryotic metabolism artificially.European researchers have modified the cellular machinery of Escherichia coli to produce a system for the production of proteins relevant for eukaryotic, particularly human, applications. E. coli, like most bacteria, fail to glycosylate the proteins they synthesize, but this system could change all that.
Membrane enclosed organelles
Eukaryotic organelles responsible for the production and processing of proteins and lipids are Smooth Endoplasmic Reticuli (SER). In the SER, as well its extensions, are where protein-lipid synthesis, metabolism and transport occur.
Mitochondria are membrane-bound organelles found in eukaryotic cells but not in prokaryotic cells. Biochemical processes, such as respiration and energy production, occur in the mitochondria.
The ribosomes are the small organelles responsible for protein synthesis. They are found in both eukaryotic and prokaryotic cells, but are smaller in prokaryotic cells (70s vs 80s).
Normally, all of bacteria are prokaryotic without any exception. However, a prokaryotic bacteria can be changed to equip eukaryotic metabolism artificially.European researchers have modified the cellular machinery of Escherichia coli to produce a system for the production of proteins relevant for eukaryotic, particularly human, applications. E. coli, like most bacteria, fail to glycosylate the proteins they synthesize, but this system could change all that.
Normally, all of bacteria are prokaryotic without any exception. However, a prokaryotic bacteria can be changed to equip eukaryotic metabolism artificially.European researchers have modified the cellular machinery of Escherichia coli to produce a system for the production of proteins relevant for eukaryotic, particularly human, applications. E. coli, like most bacteria, fail to glycosylate the proteins they synthesize, but this system could change all that.
Membrane enclosed organelles
mass production
why the H2S production test would be diagnostically significant?
"Mitochondria" (single is "mitochondrion") are where energy production and respiration occur in a eukaryotic cell.
Eukaryotic organelles responsible for the production and processing of proteins and lipids are Smooth Endoplasmic Reticuli (SER). In the SER, as well its extensions, are where protein-lipid synthesis, metabolism and transport occur.
Climate has a significant impact on field crop production. Drought and flood are the most significant events that effect crop production. Hail storms and severe wind events also effect crop production.
In prokaryotes, RNA synthesis and protein synthesis takes place in the cytoplasm. In eukaryotes, RNA is produced in the cells nucleus and then moves to the cytoplasm to play a role in the production of protein.
There is no such thing as a chla oplst. A chloroplast is an organelle that helps foster the production of photosynthesis. It is also eukaryotic.