Cells: Structure and Function PDF

Summary

This document provides an overview of cell structures and functions, covering both prokaryotic and eukaryotic cells. It details components like cytoplasm, cell membranes, ribosomes, and cell walls. The text also touches on the differences between these cell types.

Full Transcript

The cell is described as the most basic unit of life. They are small
discrete packages that carry out functional and structural roles of
organisms and, aside from viruses, all organisms exist as cells or cell
assemblages. Major components of bacterial and archaeal cells include
the following (Fig. 3.13.1):

- **Cytoplasm:** a mixture of substances and structures that are
either dissolved or suspended in water and carry out the functions
of the cell. Those substances and structures include macromolecules
such as proteins and nucleic acids, ribosomes, small organic
molecules that are precursors of macromolecules, and inorganic ions.
Within the cytoplasm, raw materials from the external environment
are enzymatically degraded and new macromolecules are formed.

- **Cytoplasmic membrane:** a phospholipid bilayer that surrounds the
cytoplasm and serves as a permeable barrier. Proteins embedded in
the cytoplasmic membrane provide important functions including roles
in energy production and the transport of materials in and out of
the cell.

- **Ribosome:** small organelle in the cytoplasm that is responsible
for protein production in organisms of all three domains of life.
See Chapter 2 for additional details.

- **Cell wall:** provides cells with structural support and helps
determine cell shape (Beveridge, 1988). Cell walls are found in
Bacteria and Archaea but also some plants, fungi, and algae of
domain Eukaryota.

- **Cell capsule:** large structure on the outside of some bacterial
and archaeal cells that usually consists of polysaccharides. It can
help cells resist viruses and toxic chemicals, adhere to surfaces,
and remain hydrated.

- **Nucleoid:** a large double-stranded molecule that aggregates to
form a visible mass.

- **Flagellum:** lash-like appendage of some cells that is primarily
used to help the cell move.

- Pilus: (not shown): hair like structure found on the surface of some
bacteria and archaea. Numerous pili can be present on each cell and
uses vary. They can be used for electron transfer, adherence to
surfaces, conjugation, and more.

Eukaryotic cells contain many of the same components as bacterial and
archaeal cells (Fig. 3.13.1). In addition, eukaryotic cells have
membrane-enclosed organelles such as the nucleus, nucleolus,
mitochondria, and chloroplasts. The nucleus houses DNA, which is packed
in a very organized state called chromosomes. The nucleolus exists
within the nucleus and produces ribosomes. Mitochondria and chloroplasts
are organelles that are used in energy production. Aside from these
differences, Eukaryotes also have more DNA than Bacteria and Archaea.
The genome is all of the genetic material within an organism. The genome
of Eukaryotes is typically much larger, by up to several orders of
magnitude, than that of bacteria (Theriot, 2013).