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Eukaryote

From Wikipedia, the free encyclopedia

Eukaryotes
Scientific classification
Domain: Eukaryota
Whittaker & Margulis, 1978
Kingdoms
Animalia - Animals
Fungi
Plantae - Plants
Protista
Alternative Phylogeny

Unikonta
   Opisthokonta
   Amoebozoa
Bikonta
   Apusozoa
   Cabozoa
      Rhizaria
      Excavata
   Corticata
      Archaeplastida
      Chromalveolata

Animals, plants, fungi, and protists are eukaryotes (IPA: [juːˈkæɹɪɒt]), organisms with a complex cell or cells, where the genetic material is organized into a membrane-bound nucleus or nuclei. Animals, plants, and fungi are mostly multicellular, while many sorts of protist are unicellular. Eukaryotic cells also contain membrane-bound organelles such as mitochondria and chloroplasts.

Unlike eukaryotes, prokaryotes (bacteria and archaea) lack membrane-bound organelles, such as Golgi bodies, and other complex cell structures. Eukaryotes share a common ancestor, which identifies them as a superkingdom, empire, or domain. In the domain system, eukaryotes have more in common with archaean prokaryotes than bacterial prokaryotes, and as such, are grouped with the archaea in the clade Neomura. The name, also spelled "eucaryote," comes from the Greek ευ, meaning good/true, and κάρυον, meaning nut, in reference to the cell nucleus.

Contents

[edit] Differences between eukaryotic cells

There are many different types of eukaryotic cells, though animals and plants are the most common and familiar eukaryotes, and thus provide an excellent starting point for understanding eukaryotic structure. Fungi and many protists have some substantial differences, however.

[edit] Animal cell

An animal cell is a form of eukaryotic cell which make up many tissues in animals. The animal cell is distinct from other eukaryotes, most notably plant cells, as they lack cell walls and chloroplasts, and they have smaller vacuoles. Due to the lack of a rigid cell wall, animal cells can adopt a variety of shapes and a phagocytic cell can even engulf other structures. Human cells are biologically categorized as animal cells.

Structure of a typical plant cell.
Structure of a typical plant cell.

[edit] Plant cell

Plant cells are quite different from the cells of the other eukaryotic organisms. Their distinctive features are:

Structure of a typical animal cell.
Structure of a typical animal cell.

[edit] Fungal cell

Fungal cells are most similar to animal cells, with the following exceptions.

  • A cell wall made of chitin.
  • Less definition between cells. Higher fungal cells have porous separations called septa which allow the passage of cytoplasm, organelles, and sometimes, nuclei. Primitive fungi have no such divisions, and each organism is essentially a giant supercell. These fungi are described as coenocytic.
  • Only the most primitive fungi, chytrids, have flagella.

[edit] Structure

Eukaryotic cells are generally much larger than prokaryotes. They have a variety of internal membranes and structures, called organelles, and a cytoskeleton composed of microtubules, microfilaments and intermediate filaments, which play an important role in defining the cell's organization and shape. Eukaryotic DNA is divided into several linear bundles called chromosomes, which are separated by a microtubular spindle during nuclear division. In addition to asexual cell division (mitosis), most eukaryotes have some process of sexual reproduction via cell fusion (meiosis), which is not found among prokaryotes.

Detail of the endomembrane system and its components
Detail of the endomembrane system and its components

[edit] Internal membrane

Eukaryotic cells include a variety of membrane-bound structures, collectively referred to as the endomembrane system. Simple compartments, called vesicles or vacuoles, can form by budding off other membranes Many cells ingest food and other materials through a process of endocytosis, where the outer membrane invaginates and then pinches off to form a vesicle. It is probable that most other membrane-bound organelles are ultimately derived from such vesicles.

The nucleus is surrounded by a double membrane (commonly referred to as a nuclear envelope), with pores that allow material to move in and out. Various tube- and sheet-like extensions of the nuclear membrane form what is called the endoplasmic reticulum or ER, which is involved in protein transport and maturation. It includes the Rough ER where ribosomes are attached, and the proteins they synthesize enter the interior space or lumen. Subsequently, they generally enter vesicles, which bud off from the Smooth ER. In most eukaryotes, this protein-carrying vesicles are released and further modified in stacks of flattened vesicles, called Golgi bodies or dictyosomes.

Vesicles may be specialized for various purposes. For instance, lysosomes contain enzymes that break down the contents of food vacuoles, and peroxisomes are used to break down peroxide which is toxic otherwise. Many protozoa have contractile vacuoles, which collect and expel excess water, and extrusomes, which expel material used to deflect predators or capture prey. In multicellular organisms, hormones are often produced in vesicles. In higher plants, most of a cell's volume is taken up by a central vacuole, which primarily maintains its osmotic pressure.

 Mitochondria structure : 1) Inner membrane 2) Outer membrane 3) Crista 4) Matrix
Mitochondria structure :
1) Inner membrane
2) Outer membrane
3) Crista
4) Matrix

[edit] Mitochondria and plastids

Mitochondria are organelles found in nearly all eukaryotes. They are surrounded by double membranes (known as the phospholipid bi-layer), the inner of which is folded into invaginations called cristae, where aerobic respiration takes place. They contain their own DNA and are only formed by the fission of other mitochondria. They are now generally held to have developed from endosymbiotic prokaryotes, probably proteobacteria. The few protozoa that lack mitochondria have been found to contain mitochondrion-derived organelles, such as hydrogenosomes and mitosomes.

Plants and various groups of algae also have plastids. Again, these have their own DNA and developed from endosymbiotes, in this case cyanobacteria. They usually take the form of chloroplasts, which like cyanobacteria contain chlorophyll and produce energy through photosynthesis. Others are involved in storing food. Although plastids likely had a single origin, not all plastid-containing groups are closely related. Instead, some eukaryotes have obtained them from others through secondary endosymbiosis or ingestion.

Endosymbiotic origins have also been proposed for the nucleus, for which see below, and for eukaryotic flagella, supposed to have developed from spirochaetes. This is not generally accepted, both from a lack of cytological evidence and difficulty in reconciling this with cellular reproduction.

[edit] Cytoskeletal structures

Many eukaryotes have long slender motile cytoplasmic projections, called flagella. These are composed mainly of tubulin and shorter cilia, both of which are variously involved in movement, feeding, and sensation. These are entirely distinct from prokaryotic flagella. They are supported by a bundle of microtubules arising from a basal body, also called a kinetosome or centriole, characteristically arranged as nine doublets surrounding two singlets. Flagella also may have hairs, or mastigonemes, and scales connecting membranes and internal rods. Their interior is continuous with the cell's cytoplasm. Microfilametal structures composed by actin and actin binding proteins e.g. α-actinin, fimbrin, filamin are present in submembaneous cortical layers and bundles as well. Motor proteins of microtubules e.g. dynein or kinesin and actin e.g. myosins provide dynamic character of the network.

Centrioles are often present even in cells and groups that do not have flagella. They generally occur in groups of one or two, called kinetids, that give rise to various microtubular roots. These form a primary component of the cytoskeletal structure, and are often assembled over the course of several cell divisions, with one flagellum retained from the parent and the other derived from it. Centrioles may also be associated in the formation of a spindle during nuclear division.

Significance of cytoskeletal structures is underlined in determination of shape of the cells as well as they are essential components of migratory responses like chemotaxis and chemokinesis. Some protists have various other microtubule-supported organelles. These include the radiolaria and heliozoa, which produce axopodia used in flotation or to capture prey, and the haptophytes, which have a peculiar flagellum-like organelle called the haptonema.

[edit] Plant cell wall

Further information: Cell wall

Plant cells contain a cell wall, which is a fairly rigid layer surrounding a cell, located external to the cell membrane, that provides the cell with structural support, protection, and a filtering mechanism. The cell wall also prevents over-expansion when water enters the cell. The major carbohydrates making up the primary cell wall are cellulose, hemicellulose and pectin. The cellulose microfibrils are linked via hemicellulosic tethers to form the cellulose-hemicellulose network, which is embedded in the pectin matrix. The most common hemicellulose in the primary cell wall is xyloglucan.

[edit] Reproduction

Nuclear division is often coordinated with cell division. This generally takes place by mitosis, a process which allows each daughter nucleus to receive one copy of each chromosome. In most eukaryotes there is also a process of sexual reproduction, typically involving an alternation between haploid generations, where only one copy of each chromosome is present, and diploid generations, where two are present, occurring through nuclear fusion (syngamy) and meiosis. There is considerable variation in this pattern, however.

Eukaryotes have a smaller surface to volume area ratio than prokaryotes, and thus have lower metabolic rates and longer generation times. In some multicellular organisms, cells specialized for metabolism will have enlarged surface areas, such as intestinal vili.

[edit] Origin and evolution

The origin of the eukaryotic cell was a milestone in the evolution of life, since they include all complex cells and almost all multi-cellular organisms. The timing of this series of events is hard to determine; Knoll (1992) suggests they developed approximately 1.6 - 2.1 billion years ago. Fossils that are clearly related to modern groups start appearing around 1200 million years ago, in the form of a red alga.

RRNA trees constructed during the 1980s and 1990s left most eukaryotes in an unresolved "crown" group (not technically a true crown), which was usually divided by the form of the mitochondrial cristae. The few groups that lack mitochondria branched separately and so the absence was believed to be primitive, but this is now considered an artifact of long branch attraction and they are known to have lost them secondarily.

Trees based on actin and other molecules have painted a different and more complete picture. Most eukaryotes are now included in several supergroups:

Opisthokonts Animals, fungi, choanoflagellates, etc.
Amoebozoa Most lobose amoebae and slime moulds
Rhizaria Foraminifera, Radiolaria, and various other amoeboid protozoa
Excavates Various flagellate protozoa
Primoplantae (or Archaeplastida) Land plants, green algae, red algae, and glaucophytes
Chromists Brown algae, diatoms, water molds, etc.
Alveolates Ciliates, Apicomplexa, dinoflagellates, etc.

Several authorities recognize two larger clades, the unikonts and the bikonts, the unikonts deriving from an ancestral uniflagellar organism, and the bikonts deriving from an ancestral biflagellate. In this system, the opisthokonts and amoebozoans are considered unikonts, and the rest are considered bikonts. The chromists and alveolates may be part of a larger group that is ancestrally photosynthetic, called the chromalveolates, but this remains contentious. Some small protist groups have not be related to any of these supergroups, in particular the centrohelids. Eukaryotes are closely related to Archaea, at least in terms of nuclear DNA and genetic machinery, and are placed by some, along with the Archaea, in the clade Neomura. In other respects, such as membrane composition, they are similar to eubacteria. Three main explanations for this have been proposed:

  • Eukaryotes resulted from the complete fusion of two or more cells, the cytoplasm forming from a eubacterium and the nucleus from an archaeon (alternatively a virus).
  • Eukaryotes developed from Archaea, and acquired their eubacterial characteristics from the proto-mitochondrion.
  • Eukaryotes and Archaea developed separately from a modified eubacterium.

The final hypothesis is currently the most accepted. The origin of the endomembrane system and mitochondria are also disputed. The phagotrophic hypothesis states the membranes originated with the development of endocytosis and later specialized; mitochondria were acquired by ingestion, like plastids. The syntrophic hypothesis states that the proto-eukaryote relied on the proto-mitochondrion for food, and so ultimately grew to surround it; the membranes originate later, in part thanks to mitochondrial genes (the hydrogen hypothesis is one particular version).

[edit] See also

[edit] References

    • Knoll AH (1992). "The early evolution of eu-karyotes: A geological perspective". Science 256 (5057): 622–27. DOI:10.1126/science.1585174. 
    • T. Cavalier-Smith (2002). "The phagotrophic origin of eukaryotes and phylogenetic classification of Protozoa". International Journal of Systematic and Evolutionary Microbiology 52: 297-354. 
    • W. Martin & M.J. Russell (1992). "On the origins of cells: a hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cells". Philosophical Transactions of the Royal Society B. 
    • S. L. Baldauf (2003). "The Deep Roots of Eukaryotes". Science 300 (5626): 1703–1706. DOI:10.1126/science.1085544. 
    • Sina M. Adl et al (2005). "The New Higher Level Classification of Eukaryotes with Emphasis on the Taxonomy of Protists". Journal of Eukaryotic Microbiology 52 (5): 399. DOI:10.1111/j.1550-7408.2005.00053.x. 

    This article contains material from the Science Primer published by the NCBI, which, as a US government publication, is in the public domain.

    [edit] External links

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