The one with the greater folds because more folds means higher surface area which means more ATP is produced.
Important peritoneal folds include the greater omentum, lesser omentum, mesentery, and mesocolon. The peritoneal lining itself is not considered an important peritoneal fold.
Greater & lesser omentum, Falciform ligament, and MesenteryVisceral Peritoneum, Parietal Peritoneum, and MesenteryThe top, the middle, and the left side.mesentery and greater omentum
If air passing through the glottis vibrates the vocal folds, it produces sound. The pitch and quality of the sound is determined by factors such as the tension and length of the vocal folds, as well as the rate of vibration.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
Important peritoneal folds include the greater omentum, lesser omentum, mesentery, and mesocolon. The peritoneal lining itself is not considered an important peritoneal fold.
The inner membrane folds in a mitochondrion are called cristae.
The peritoneum is the largest serous membrane of the body that consists of a layer of simple squamous epithelium with an underlying supporting layer of areolar connective tissue. There are five major peritoneal folds such as greater omentum, falciform ligament, lesser omentum, mesentery and mesocolon.
The organelle you are referring to is the mitochondrion. It is known as the powerhouse of the cell because it generates energy in the form of ATP through aerobic respiration. The folds in the inner membrane, called cristae, increase its surface area for more efficient energy production.
Greater & lesser omentum, Falciform ligament, and MesenteryVisceral Peritoneum, Parietal Peritoneum, and MesenteryThe top, the middle, and the left side.mesentery and greater omentum
If air passing through the glottis vibrates the vocal folds, it produces sound. The pitch and quality of the sound is determined by factors such as the tension and length of the vocal folds, as well as the rate of vibration.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The inner membrane is folded on itself multiple times in structures called "christae". These folds dramatically increase the surface area within the mitochondrion, which increases how much energy the organelle can make.
The mitochondrial structure affects its function because in its inner membrane, the cristae (folds) allow for more surface area which increases the amount of ATP that can be produced by the mitochondria.
A mitochondrion consists of an outer membrane, an inner membrane, cristae (folds in the inner membrane), a matrix (fluid-filled space inside the inner membrane), and ribosomes and DNA for protein synthesis within the matrix.
The folded inner membrane inside the mitochondrion is called the cristae. These folds increase the surface area available for biochemical reactions, particularly those involved in the electron transport chain and ATP production. The cristae are essential for efficient energy production through cellular respiration.