How Do Bacteria Produce Atp Without Mitochondria at Nannie Howard blog

How Do Bacteria Produce Atp Without Mitochondria. This points you to the answer: Chemical energy generated by substrate oxidations is conserved by formation. protons power respiration not only in mitochondria, but also in bacteria and archaea (members of another domain of prokaryotes,. atp synthases produce atp from adp and inorganic phosphate with energy from a transmembrane proton. as with the mitochondrion, a bacterial atpase lets protons (under the protonmotive force) into the cytoplasm, using them to make atp. mitochondria are very similar to bacteria and are thought to have originated from bacteria. the bacterial cell is a highly specialized energy transformer. in aerobic respiration in mitochondria, the passage of electrons from one molecule of nadh generates enough proton motive.

How do bacteria survive without mitochondria?
from byjus.com

mitochondria are very similar to bacteria and are thought to have originated from bacteria. the bacterial cell is a highly specialized energy transformer. This points you to the answer: protons power respiration not only in mitochondria, but also in bacteria and archaea (members of another domain of prokaryotes,. in aerobic respiration in mitochondria, the passage of electrons from one molecule of nadh generates enough proton motive. Chemical energy generated by substrate oxidations is conserved by formation. atp synthases produce atp from adp and inorganic phosphate with energy from a transmembrane proton. as with the mitochondrion, a bacterial atpase lets protons (under the protonmotive force) into the cytoplasm, using them to make atp.

How do bacteria survive without mitochondria?

How Do Bacteria Produce Atp Without Mitochondria atp synthases produce atp from adp and inorganic phosphate with energy from a transmembrane proton. protons power respiration not only in mitochondria, but also in bacteria and archaea (members of another domain of prokaryotes,. in aerobic respiration in mitochondria, the passage of electrons from one molecule of nadh generates enough proton motive. atp synthases produce atp from adp and inorganic phosphate with energy from a transmembrane proton. Chemical energy generated by substrate oxidations is conserved by formation. the bacterial cell is a highly specialized energy transformer. This points you to the answer: mitochondria are very similar to bacteria and are thought to have originated from bacteria. as with the mitochondrion, a bacterial atpase lets protons (under the protonmotive force) into the cytoplasm, using them to make atp.

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