The Song of the Cell: Difference between revisions

Every cell in a multicellular organism is surrounded by an oily membrane that separates it from other cells and from the extracellular fluid that bathes all cells. The cell surface membrane is permeable to certain substances, thereby allowing an exchange of nutrients and gases to take place between the interior of the cell and the fluid surrounding it. Inside the cell is the nucleus, which has a membrane of its own and is surrounded by an intracellular fluid called the cytoplasm. The nucleus contains the chromosomes, long thin structures made of DNA that carry genes like beads on a string. In addition to controlling the cell's ability to reproduce itself, genes tell the cell what proteins to make to carry out its activities. The actual machinery for making proteins is located in the cytoplasm. Seen from this shared perspective, the cell is the fundamental unit of life, the structural and functional basis of all tissues and organs in all animals and plants.

Besides their common biological features, all cells have specialized functions:

• Liver cells, for instance, carry out digestive activities
• Brain cells have particular ways of processing information and communicating with one another. These interactions allow nerve cells in the brains to form complete circuits that carry and transform information

From The Song of the Cell by Mukherjee

• To be living, an organism must have the capacity to:
  • to reproduce
  • to grow
  • to metabolize
  • to adapt to stimuli
  • to maintain its internal miliau
• Complex multicellular living beings also possess emergent properties, which emerge from systems of cells:
  • to defend against injury or invasion
  • organs with specialized functions,
  • physiologic systems of communication between organs
  • even sentience and cognition
• It is difficult to imagine life without cells, or to imagine cells without life

• A cell is an autonomous living unit that acts as a decoding machine for a gene. Genes provide instructions to build proteins, the molecules that perform virtually all the work in a cell. Proteins enable biological reactions, coordinate signals within the cell, form its structural elements, and turn genes on and off to regulate a cell's identity, metabolism, growth, and death. They are the central functionaries in biology, the molecular machines that enable life.
• A cell thus transforms information into form, genetic code into proteins. A gene without a cell is lifeless. A cell brings materiality and physicality to a set of genes. But not only that.
• Having unpacked the code by synthesizing a select set of proteins that is encoded in its genes, a cell becomes an integrating machine. It uses this set of proteins (and the biochemical products made by proteins) in conjunction with one another to start coordinating its function, its behavior (movement, metabolism, signaling, delivering nutrients to other cells, surveying for foreign objects) to achieve the properties of life. And that behavior, in turn, manifests as the behavior of the organism. The metabolism of the organism reposes in the metabolism of the cell, And the same for the reproduction, repair, survival, and death of the organism
• Finally, the cell is a dividing machine. Molecules within the cell - proteins again - initiate the process of duplicating the genome. The internal organization of the cell changes. Chromosomes, where the genetic material of a cell is physically located, divide, and this division drives growth, repair, regeneration, and ultimately, reproduction, among the fundamental, defining features of life.

• You have to think of a cell as a functional site for all physiological chemical reactions, as an organizing unit for all tissues, and as the unifying locus for physiology and pathology.
• You have to move from a continuous organization of the biological world to a description that involves discontinuous, discrete, autonomous elements that unify the world:
  • See past flesh (continuous, corporeal, visible)
  • To blood (invisible, corpuscular, discontinuous)

• Raspail - "A cell is a kind of laboratory" - it enables physiology
• Virchow - "The body is a cell state in which every cell is a citizen."

Tenets of cell theory:

• All living organisms are composed of one or more cells
• The cell is the basic unit of structure and organization in organisms
• All cells come from other cells
• Normal physiology is the function of cellular physiology
• Disease, the disruption of physiology, is the result of the disrupted physiology of the cell

• Germ theory - microbes are independent, living cells capable, in some cases, of causing human illnesses
• Bacterial cells, Pasteur concluded, are carried in air and dust. Putrefaction or rotting was not caused by the inner decomposition of living creatures - or some visceral form of interior sin. Rather decomposition only happened when these bacterial cells landed on the broth.
• Infections were invasions by microbes - single-celled organisms that entered other organisms and caused pathological changes and tissue degeneration

• Antibiotics recognize some molecular component of hyman cells that is different from a bacterial cell. They are cellular medicines, drugs that rely on the distinctions between a microbial cell and a human cell.