Astrobiology. Charles S. Cockell
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Название: Astrobiology

Автор: Charles S. Cockell

Издательство: John Wiley & Sons Limited

Жанр: Физика

Серия:

isbn: 9781119550396

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СКАЧАТЬ that includes the ability to reproduce, they are certainly an important part of life on Earth. There are about 10 times as many virus particles on Earth as there are bacteria – often about 10 billion of them per liter of seawater.

      The diverse patterns of nucleic acid structure in viruses and their non-cellular nature mean that they cannot readily be fitted into a traditional Tree of Life (Chapter 8), but instead form their own group of entities separate from cellular life. Nevertheless, their ancestry can be traced, and many of them have ancient lineages. The Herpes viruses, enveloped DNA viruses, form a group of at least 150 viruses and are separated into three groups, the alpha, beta, and gamma subfamilies. In humans, they are responsible for diseases as diverse as chickenpox, cold sores, and genital herpes. They are thought to have evolved about 400 million years ago in the Devonian and would have infected the first animals that emerged onto land. Their ancient lineage also accounts for the fact that they infect all human populations.

      A prominent group of viruses is the bacteriophages or phages, a term applied to viral particles that infect prokaryotes. The co-evolution of bacteria and viruses has been a complex and prolonged interaction. Bacteria produce restriction endonucleases, enzymes which splice (cut up) virus DNA after its injection into the bacterial cell by the bacteriophage, preventing successful infection. CRISPR (clustered regularly interspaced short palindromic repeats) sequences are codes of DNA within the bacterial genome that correspond to sequences from viruses that have previously infected them. Using these sequences, bacteria are able to synthesize nucleases and RNA sequences that destroy the nucleic acid of similar phages that infect them at a later stage. This is a type of acquired immunity.

      One reason why astrobiologists are interested in viruses is the intimate association between viruses and the prokaryotic world. Their role in information transfer between extant prokaryotes (Horizontal Gene Transfer; Chapter 8) complicates our efforts to build evolutionary trees depicting life on Earth, making it more difficult to unravel the origin of particular metabolic and biochemical pathways. An example of these complications is illustrated by the cyanophages that infect cyanobacteria. These viruses are capable of transferring photosynthetic genes, and it has been estimated that 10% of the world's cyanobacterial photosynthesis is carried out by genes that were originally transferred by cyanophages. There are many other examples of this phenomenon that suggest a need to understand the extent to which the activity of gene transfer by viruses influences the accuracy of inferred evolutionary relationships between organisms based on genetic information.

      It would be incomplete not to mention prions. These entities are made of misfolded proteins that can have disease-causing characteristics. One of the best characterized of these is the agent responsible for scrapie, one of several transmissible spongiform encephalopathies, which affect brain and neural tissue. Prions can induce normal proteins in cells to misfold into a stable configuration, which can then cause other proteins to misfold, thereby generating a chain reaction of misfolded proteins. These misfolded proteins are folded in such a way as to make them resistant to proteases, which are enzymes that normally break down defective proteins in cells. They have been reported in fungi. Like viruses, they can be reproduced in host cells, but they cannot reproduce by themselves, putting them outside most definitions of life. However, like viruses they invite us to advance our discussion of what operational definition we use for “life.”

      Questions for Review and Reflection

      1 Give at least one reason why compartmentalization (for example using a membrane) has been regarded as a defining characteristic of life. Do you agree that it is an essential feature of a living thing?

      2 Describe three differences between a prokaryotic and eukaryotic cell.

      3 Microbes are sometimes said to be “simple.” Discuss this statement with respect to what you know about microbes, their internal structures, and other capacities. Do you think microbes today reflect the characteristics of the earliest life forms?

      4 Explain the process of translation, describing quantitatively the concept of the “degeneracy of the genetic code.”

      5 An alien genetic code has been found that has six bases in its code and only two positions in each codon. Can it encode for the same diversity of amino acids as terrestrial life? Compare the degeneracy of this code to the terrestrial genetic code. What about an alien code with two bases and four positions in its codons?

      6 Compare a plasmid and a virus.

      7 Some microbes are motile. Discuss how this attribute could be useful in an extreme environment, such as inside a deep ice sheet. Why might this characteristic have evolved in the first place?

      8 Explain the importance of endosymbiosis in evolution.

       Books

      1 Allen, T. and Cowling, G. (2011). The Cell: A Very Short Introduction. Oxford: Oxford University Press.

      2 Pross, A. (2014). What Is Life? How Chemistry Becomes Biology. Oxford: Oxford University Press.

       Papers

      1 Abisado, R.G., Benomar, S., Klaus, J.R. et al. (2018). Bacterial quorum sensing and microbial community interactions. mBio 9. https://doi.org/10.1128/mBio.02331-17.

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