Metazoa: Difference between revisions

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'''NCBI:<br />[http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=33208 Taxonomy]<br /> Genome '''
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[[Image:sponge.jpg]]<br /> The sponge: the earliest metazoa. Image from [http://www.cruisecortez.com/gallery_uw.htm Cruisecortez.com]
[[Image:sponge.jpg|thumb|300px|right|The sponge: the earliest metazoa. Image from [http://www.cruisecortez.com/gallery_uw.htm Cruisecortez.com]]]


==Classification==
==Classification==
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Eukaryota; Fungi/Metazoa group
Eukaryota; Fungi/Metazoa group
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'''NCBI: [http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?id=33208 Taxonomy] Genome '''
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==Description and Significance==
==Description and Significance==


Metazoan animals are multicellular, mitochondrial eukaryotes. Today Metazoa encompasses all animals with differentiated tissues, including nerves and muscles. They evolved from the protists approximately 700 years ago. There are two prominent theories dealing with how the metazoans came to be, although one, the syncytial theory, has been somewhat discredited. The other, the colonial theory proposed by Ernst Haeckel in 1874 states basically that multicellular organisms have a colonial ancestor. This is in keeping with the idea that the choanoflagellates, a group of colonial protists, created the colonies from which multicelled organisms first evolved. This evolution occured sometime during the Precambrian period; the oldest known animal fossils were discovered in Precambrian rocks in 1946.
Metazoan animals are multicellular, mitochondrial eukaryotes. Today Metazoa encompasses all animals with differentiated tissues, including nerves and muscles. They evolved from the protists approximately 700 million years ago. There are two prominent theories dealing with how the metazoans came to be, although one, the syncytial theory, has been somewhat discredited. The other, the colonial theory proposed by Ernst Haeckel in 1874 states basically that multicellular organisms have a colonial ancestor. This is in keeping with the idea that the choanoflagellates, a group of colonial protists, created the colonies from which multicelled organisms first evolved. This evolution occured sometime during the Precambrian period; the oldest known animal fossils were discovered in Precambrian rocks in 1946.


==Genome Structure==
==Genome Structure==
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==Cell Structure and Metabolism==
==Cell Structure and Metabolism==


[[Image:lifecyc.jpg]]<br /> Image from [http://www.umanitoba.ca/faculties/science/biological_sciences/lab14/biolab14_2.html University of Manitoba. ]
[[Image:lifecyc.jpg|thumb|200px|right|Image from [http://www.umanitoba.ca/faculties/science/biological_sciences/lab14/biolab14_2.html University of Manitoba.]]]


Metazoan animals are heterotrophic; they consume other organisms or the products of other organisms because they cannot produce their own energy. Primarily they have diploid life cycles; that is, the male organism (sperm) fertilizes the female organism (egg), producing a multicelluar embryo which becomes a new diploid organism. A characteristic unique to the metazoic cell is the extracellular matrix, made up of collagen, proteoglycans, adhesive glycoproteins, and integrin. These molecules serve to fill the spaces between cells, and are necessary structurally and sometimes developmentally. Metazoic cells have no cell walls.
Metazoan animals are heterotrophic; they consume other organisms or the products of other organisms because they cannot produce their own energy. Primarily they have diploid life cycles; that is, the male organism (sperm) fertilizes the female organism (egg), producing a multicelluar embryo which becomes a new diploid organism. A characteristic unique to the metazoic cell is the extracellular matrix, made up of collagen, proteoglycans, adhesive glycoproteins, and integrin. These molecules serve to fill the spaces between cells, and are necessary structurally and sometimes developmentally. Metazoic cells have no cell walls.

Latest revision as of 13:30, 18 November 2011

This is a curated page. Report corrections to Microbewiki.

A Microbial Biorealm page on the Metazoa

The sponge: the earliest metazoa. Image from Cruisecortez.com

Classification

Higher order taxa

Eukaryota; Fungi/Metazoa group

NCBI: Taxonomy Genome

Description and Significance

Metazoan animals are multicellular, mitochondrial eukaryotes. Today Metazoa encompasses all animals with differentiated tissues, including nerves and muscles. They evolved from the protists approximately 700 million years ago. There are two prominent theories dealing with how the metazoans came to be, although one, the syncytial theory, has been somewhat discredited. The other, the colonial theory proposed by Ernst Haeckel in 1874 states basically that multicellular organisms have a colonial ancestor. This is in keeping with the idea that the choanoflagellates, a group of colonial protists, created the colonies from which multicelled organisms first evolved. This evolution occured sometime during the Precambrian period; the oldest known animal fossils were discovered in Precambrian rocks in 1946.

Genome Structure

Many genomes of metazoan animals have been sequenced; see NCBI's Genome category for complete results.

Cell Structure and Metabolism

Metazoan animals are heterotrophic; they consume other organisms or the products of other organisms because they cannot produce their own energy. Primarily they have diploid life cycles; that is, the male organism (sperm) fertilizes the female organism (egg), producing a multicelluar embryo which becomes a new diploid organism. A characteristic unique to the metazoic cell is the extracellular matrix, made up of collagen, proteoglycans, adhesive glycoproteins, and integrin. These molecules serve to fill the spaces between cells, and are necessary structurally and sometimes developmentally. Metazoic cells have no cell walls.

Ecology

Metazoan animals are found worldwide, in all climates and habitats. Their primary ecological role is that of consumer, of which there are three types:

  • predator: animal consumes other organisms or something another organism has produced; includes carnivores and herbivores.
  • parasite: animal lives on or in and obtains nourishment from a living host. May or may not be particularly pathogenic.
  • detrivore: animal feeds on dead or decaying organic matter. Plays an essential role in the food web as recyclers.

References

Herbert, Thomas J. Protists. Department of Biology, University of Miami College of Arts and Sciences.

Introduction to the Metazoa. Museum of Paleontology, University of California-Berkeley.

Shaw, Michael. Gametogenesis and Development. Introductory Biology, University of Manitoba.

The Metazoa. The Miller Museum of Geology, Queen's University. Updated 24 October 2000.

White, Toby. Metazoa: The Animals. Palaeos: The Trace of Life on Earth.