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Changed View of the Biosphere

This view of the biosphere has dramatically changed in the last decade with the advent of molecular taxonomy and phylogeny. The basic idea behind this approach is that there are some molecules common to all Earthly life (16 S ribosomal RNA, for example), and that, if one could sequence such molecules and compare the sequences, it might be possible to use this chemical information to compare all life, even that which can be seen only with a microscope. While the germ of this idea is actually decades old, its demonstration was realized only recently with new development of techniques in sequencing of nucleic acids, and the use of this information for organismic comparisons.

The work pioneered by Dr. Karl Woese of the University of Illinois has changed the way we look at life on Earth.Woese C.R. 1987. Bacterial evolution. Microbiol. Rev. 51, 221-271; Woese, C.R. 1994. There must be a prokaryote somewhere: microbiology’s search for itself. MicrobioL Rev. 58, 1-9; Pace, N.R. 1996. New... From the point of view of the prokaryotes, which lack features that can be used to compare them to each other or to the eukaryotes, this molecular methodology allowed one, for the first time, to have a sense of the phylogeny (a natural history which had been previously lacking) of the various groups.Olsen, G.J. Woese, C.R., Overbeek R. 1994. The winds of evolutionary change: breathing new life into microbiology. J. Bacteriol. 176, 1-6; Stahl, D.A. 1993. The natural history of microorganisms. Amer.... Not only could the prokaryotes be compared to each other, but also because the eukaryotes also contained these same molecules, the comparisons could encompass all of the five kingdoms. The results of this approach were quite dramatic: the four eukaryotic kingdoms were found to be quite homogeneous, while the prokaryotes were found to be very diverse, and thus were expanded to two separate kingdoms, referred to as Bacteria and Archaea (Figure 4).

A quick glance at the molecular tree reveals that the major genetic variation among the eukaryotes is seen in the single celled protists, while the three dominant kingdoms (plants, animals, and fungi) are actually clustered at the end of the eukaryotic assemblage, and display only a modicum of genetic diversity (see below). Apparently, it is possible to achieve structural and behavioral diversity (traits that have appeared only in the last 500 million years) while remaining genetically rather homogeneous. Given that multicellular eukaryotes evolved only recently, and that for nearly 3 billion years the prokaryotes dominated the surface of the Earth, one should not be surprised that the bulk of the apparent genetic diversity on the planet resides in this group.

Figure 4. The three kingdoms of life. Based on sequence analyses of the 16 S ribosomal RNA gene, which is contained in all Earthly organisms, it is possible to construct a molecular phylogeny that can quantitatively compare all organisms, even those that can not be cultivated in the laboratory. Such an approach has yielded quite a different view of life, as shown here, in which the major kingdoms of life (animals, plants, fungi, and protists) shown in Figure 3, are grouped into one kingdom, and the prokaryotes are expanded into two kingdoms, called the Archaea and the Bacteria.

Contributed by: Dr. Kenneth Nealson

Cosmic Questions

Are We Alone? Topic Index
Searching for Life in the Universe: Lessons from Earth

Changed View of the Biosphere

Introduction
Evidence for Earliest Earth Life
What is Life on Earth Like Today?
The Toughness of Life
The Prokaryotes
Extremophiles
Tenacity of Life
Designing a Search Strategy

Source:


Kenneth Nealson

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