Cristae and Oxysomes are associated with Mitochondria. Oxysomes are also known as F-1 particles
Mitochondria
cisternae and oxysomes
euglenozoa have disk shaped folds in the mitochondria (cristae)
Generating ATP is efficient whe surface area is high.Inner folds increase the surface area.
Cristae increases the surface area of the interior membrane of the mitocondria.
Because the electron carrier molecules, such as the cytochromes, are located in the cristae.
Mitochondria is the only pleiomorphic cell organelle means it can change its shape. It not only change its shape but also can change its enfoldings i.e. cristae. Cristae bears alollypop like structures called Oxysomes or F1 particles. Oxysome is the site of oxidative phosphorylation. Hence, rate of ATP formation is directly proportional number of oxysomes altimately to mitochondrial inner folds. This change is very significant and necessary during active respiration.Dr. Ravindra D. DadkePune , Maharashtra ( India)
F1 particles are present in the inner mitochondrial space of the mitochondrion. It is attached on the infoldings called the cristae. F1 particles are also known as oxysomes or elementary particles or F1-F0 particles. They are responsible in ATP synthesis and oxidation.
Cristae are present in the mitochondria.
cisternae and oxysomes
Potentilla cristae was created in 1990.
The inner membrane folds in a mitochondrion are called cristae.
mitochondria
The folds of the inner membrane are called cristae. They have three morphologies: flattened or sheet like, fingerlike or tubular, and paddle like.
Cristae is the folds form by inner membrane of mitochondria. Matrix is the 'stuff' inside of cristae that contain enzyme needed for kreb's cycle.
euglenozoa have disk shaped folds in the mitochondria (cristae)
these are found in inner mitochondrial membrane and also called F1or elementary particles it contains enzymes ATP synthase responsible for synthesis of ATP
Cristae