Daily Newsletter February 1, 2012
Today's Topic: The Mitochondria
The mitochondria is known as the power house of the cell, for this is where eukaryotic cells experience oxidative phosphorylation and ATP production. We will come back to ATP in a latter newletter, but you should note that phosphorylation of proteins is a powerful activator of enzymes (allowing them to work). Everything from pump systems, cellular movement, and even muscle contraction relies on ATP.
Like the structure of the nuclear envelope, the mitochondria is a double membrane bound structure, but the origin of the nuclear envelope and mitochondria are very different. It is hypothesized that the nuclear envelope formed from the infolding (invagination) of the cell membrane. The mitochondria, in contrast, is two separate and distinct membranes.
The Endosymbiotic Theory is used to explain the development of the mitochondria. (Question: why should we consider this a theory?) Before we get to the endosymbiotic theory, we need to first look at the structure of the mitochondria:
We have an outer membrane and an inner membrane. Between the two membranes is the Intermembranous Space. The inner membrane is highly folded into Cristae (Question: why would you fold a membrane?). The inner compartment, bounded by the inner membrane, is known as the mitochondrial matrix.
With the structure in mind, how does this differ from the nuclear envelope?
- The outer membrane displays eukaryotic proteins.
- The inner membrane displays prokaryotic proteins.
- The intermembranous space stores hydrogen ions, so is acidic.
- The matrix contains a circular bacterial DNA molecule and 70s (prokaryotic) ribosomes.
- The mitochondria is self-replicating (the DNA can make copies).
Genenomic analysis of the mitochondria shows that it comes from the bacterial Order Rickettsiales, which means that it is related to the intracellular parasite Rickettsia rickettsii (Rocky Mountain Spotted Fever). Mitochondrial genes are inherited matrilineally, and are the basis of human population genetics studies of the mitochondrial genome.
Daily Challenge:
Write about the mitochondria, the endosymbiotic hypothesis and human mitochondrial genetics. Explore these topics, and feel free to go deeper on any feature of the mitochondria that interests you. One question I want you to focus on is why is the mitochondrial genome reduced (smaller) than other members of the Rickettsiales?
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