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Carbon-based life

January 08, 2023

For the music group, see Carbon Based Lifeforms.
See also: organism and life form

Carbon is a primary component of all known life on Earth, representing approximately 45–50% of all dry biomass.[1] Carbon compounds occur naturally in great abundance on Earth. Complex biological molecules consist of carbon atoms bonded with other elements, especially oxygen and hydrogen and frequently also nitrogen, phosphorus, and sulfur (collectively known as CHNOPS).

The Lewis structure of a carbon atom, showing its four valence electrons

Because it is lightweight and relatively small in size, carbon molecules are easy for enzymes to manipulate.[2] It is frequently assumed in astrobiology that if life exists elsewhere in the Universe, it will also be carbon-based.[3][4] Critics refer to this assumption as carbon chauvinism.[5]

Characteristics

Carbon is capable of forming a vast number of compounds, more than any other element, with almost ten million compounds described to date,[6] and yet that number is but a fraction of the number of theoretically possible compounds under standard conditions. The enormous diversity of carbon-containing compounds, known as organic compounds, has led to a distinction between them and compounds that do not contain carbon, known as inorganic compounds. The branch of chemistry that studies organic compounds is known as organic chemistry.

Carbon is the 15th most abundant element in the Earth's crust, and the fourth most abundant element in the universe by mass, after hydrogen, helium, and oxygen. Carbon's widespread abundance, its ability to form stable bonds with numerous other elements, and its unusual ability to form polymers at the temperatures commonly encountered on Earth enables it to serve as a common element of all known living organisms. In a 2018 study, carbon was found to compose approximately 550 billion tons of all life on Earth.[7][8] It is the second most abundant element in the human body by mass (about 18.5%) after oxygen.[9]

The most important characteristics of carbon as a basis for the chemistry of life are that each carbon atom is capable of forming up to four valence bonds with other atoms simultaneously, and that the energy required to make or break a bond with a carbon atom is at an appropriate level for building large and complex molecules which may be both stable and reactive.[citation needed] Carbon atoms bond readily to other carbon atoms; this allows the building of arbitrarily long macromolecules and polymers in a process known as catenation.[citation needed] "What we normally think of as 'life' is based on chains of carbon atoms, with a few other atoms, such as nitrogen or phosphorus", per Stephen Hawking in a 2008 lecture, "carbon [...] has the richest chemistry."[10]

Norman Horowitz, was the head of the Jet Propulsion Laboratory’s bioscience section for the first U.S. mission, Viking Lander of 1976, to successfully land an unmanned probe on the surface of Mars. He considered that the great versatility of the carbon atom makes it the element most likely to provide solutions, even exotic solutions, to the problems of survival on other planets.[11] However, the results of this mission indicated that Mars was presently extremely hostile to carbon-based life. He also considered that, in general, there was only a remote possibility that non-carbon life forms would be able to evolve with genetic information systems capable of self-replication and adaptation.

Key molecules

The most notable classes of biological macromolecules used in the fundamental processes of living organisms include:[12]

  • Proteins, which are the building blocks from which the structures of living organisms are constructed (this includes almost all enzymes, which catalyse organic chemical reactions)
  • Nucleic acids, which carry genetic information
  • Carbohydrates, which store energy in a form that can be used by living cells
  • Lipids, which also store energy, but in a more concentrated form, and which may be stored for extended periods in the bodies of animals

Other candidates

There are not many other elements that appear to be promising candidates for supporting biological systems and processes as fundamentally as carbon does, for example, processes such as metabolism. The most frequently suggested alternative is silicon.[13] Silicon shares a group in the periodic table with carbon, can also form four valence bonds, and also bonds to itself readily, though generally in the form of crystal lattices rather than long chains.[citation needed] Despite these similarities, silicon is considerably more electropositive than carbon, and silicon compounds do not readily recombine into different permutations in a manner that would plausibly support lifelike processes.[citation needed]

Fiction

Speculations about the chemical structure and properties of hypothetical non-carbon-based life have been a recurring theme in science fiction. Silicon is often used as a substitute for carbon in fictional lifeforms because of its chemical similarities. In cinematic and literary science fiction, when man-made machines cross from non-living to living, this new form is often presented as an example of non-carbon-based life. Since the advent of the microprocessor in the late 1960s, such machines are often classed as "silicon-based life". Other examples of fictional "silicon-based life" can be seen in the 1967 episode "The Devil in the Dark" from Star Trek: The Original Series, in which a living rock creature's biochemistry is based on silicon, and in the 1994 The X-Files episode "Firewalker", in which a silicon-based organism is discovered in a volcano.

In the 1984 film adaptation of Arthur C. Clarke's 1982 novel 2010: Odyssey Two, a character argues, "Whether we are based on carbon or on silicon makes no fundamental difference; we should each be treated with appropriate respect."[14]

See also

References

  1. ^ "Knowledge reference for national forest assessments - modeling for estimation and monitoring". www.fao.org. Retrieved Feb 20, 2019.
  2. ^ Allison, Steven D.; Vitousek, Peter M. (2005-05-01). "Responses of extracellular enzymes to simple and complex nutrient inputs". Soil Biology and Biochemistry. 37 (5): 937–944. doi:10.1016/j.soilbio.2004.09.014. ISSN 0038-0717.
  3. ^ "Astrobiology". Biology Cabinet. September 26, 2006. Retrieved 2011-01-17.
  4. ^ . Astrobiology magazine. 2000. Archived from the original on 2008-06-20. Retrieved 2008-10-20.
  5. ^ Darling, David. "Carbon-based life". Encyclopedia of Life. Retrieved 14 September 2007.
  6. ^ "There are close to ten million known carbon compounds, many thousands of which are vital to organic and life processes." Chemistry Operations (December 15, 2003). . Los Alamos National Laboratory. Archived from the original on 2008-09-13. Retrieved 2008-10-09.
  7. ^ Bar-On, Yinon M.; Phillips, Rob; Milo, Ron (May 21, 2018). "The biomass distribution on Earth". Proceedings of the National Academy of Sciences. 115 (25): 6506–6511. doi:10.1073/pnas.1711842115. PMC 6016768. PMID 29784790.
  8. ^ editor, Damian Carrington Environment (May 21, 2018). "Humans just 0.01% of all life but have destroyed 83% of wild mammals – study". The Guardian. Retrieved Feb 20, 2019 – via www.theguardian.com. {{cite news}}: |last= has generic name (help)
  9. ^ Reece, Jane B. (31 October 2013). Campbell Biology (10 ed.). Pearson. ISBN 9780321775658.
  10. ^ Stephen Hawking (1 October 2008). "Life in the Universe, 50th anniversary celebration of NASA". NASA. Retrieved 28 August 2015.
  11. ^ Horowitz, N.H. (1986). Utopia and Back and the search for life in the solar system. New York: W.H. Freeman and Company. ISBN 0-7167-1766-2
  12. ^ Molnar, Charles; Gair, Jane (2015-05-14). "2.3 Biological Molecules". {{cite journal}}: Cite journal requires |journal= (help)
  13. ^ Pace, NR (2001). "The universal nature of biochemistry". Proceedings of the National Academy of Sciences of the United States of America. 98 (3): 805–8. Bibcode:2001PNAS...98..805P. doi:10.1073/pnas.98.3.805. PMC 33372. PMID 11158550.
  14. ^ . IMDb. Archived from the original on 12 January 2017. Retrieved 26 July 2017.

External links

  • "Encyclopedia of Astrobiology, Astronomy & Spaceflight". Retrieved 2006-03-14.
  • "School of Chemistry, University of Bristol, United Kingdom".

January 08, 2023
carbon, based, life, music, group, carbon, based, lifeforms, also, organism, life, form, this, article, possibly, contains, original, research, please, improve, verifying, claims, made, adding, inline, citations, statements, consisting, only, original, researc. For the music group see Carbon Based Lifeforms See also organism and life form This article possibly contains original research Please improve it by verifying the claims made and adding inline citations Statements consisting only of original research should be removed January 2021 Learn how and when to remove this template message This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Carbon based life news newspapers books scholar JSTOR May 2021 Learn how and when to remove this template message Carbon is a primary component of all known life on Earth representing approximately 45 50 of all dry biomass 1 Carbon compounds occur naturally in great abundance on Earth Complex biological molecules consist of carbon atoms bonded with other elements especially oxygen and hydrogen and frequently also nitrogen phosphorus and sulfur collectively known as CHNOPS The Lewis structure of a carbon atom showing its four valence electrons Because it is lightweight and relatively small in size carbon molecules are easy for enzymes to manipulate 2 It is frequently assumed in astrobiology that if life exists elsewhere in the Universe it will also be carbon based 3 4 Critics refer to this assumption as carbon chauvinism 5 Contents 1 Characteristics 2 Key molecules 3 Other candidates 4 Fiction 5 See also 6 References 7 External linksCharacteristics EditCarbon is capable of forming a vast number of compounds more than any other element with almost ten million compounds described to date 6 and yet that number is but a fraction of the number of theoretically possible compounds under standard conditions The enormous diversity of carbon containing compounds known as organic compounds has led to a distinction between them and compounds that do not contain carbon known as inorganic compounds The branch of chemistry that studies organic compounds is known as organic chemistry Carbon is the 15th most abundant element in the Earth s crust and the fourth most abundant element in the universe by mass after hydrogen helium and oxygen Carbon s widespread abundance its ability to form stable bonds with numerous other elements and its unusual ability to form polymers at the temperatures commonly encountered on Earth enables it to serve as a common element of all known living organisms In a 2018 study carbon was found to compose approximately 550 billion tons of all life on Earth 7 8 It is the second most abundant element in the human body by mass about 18 5 after oxygen 9 The most important characteristics of carbon as a basis for the chemistry of life are that each carbon atom is capable of forming up to four valence bonds with other atoms simultaneously and that the energy required to make or break a bond with a carbon atom is at an appropriate level for building large and complex molecules which may be both stable and reactive citation needed Carbon atoms bond readily to other carbon atoms this allows the building of arbitrarily long macromolecules and polymers in a process known as catenation citation needed What we normally think of as life is based on chains of carbon atoms with a few other atoms such as nitrogen or phosphorus per Stephen Hawking in a 2008 lecture carbon has the richest chemistry 10 Norman Horowitz was the head of the Jet Propulsion Laboratory s bioscience section for the first U S mission Viking Lander of 1976 to successfully land an unmanned probe on the surface of Mars He considered that the great versatility of the carbon atom makes it the element most likely to provide solutions even exotic solutions to the problems of survival on other planets 11 However the results of this mission indicated that Mars was presently extremely hostile to carbon based life He also considered that in general there was only a remote possibility that non carbon life forms would be able to evolve with genetic information systems capable of self replication and adaptation Key molecules EditThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed March 2015 Learn how and when to remove this template message The most notable classes of biological macromolecules used in the fundamental processes of living organisms include 12 Proteins which are the building blocks from which the structures of living organisms are constructed this includes almost all enzymes which catalyse organic chemical reactions Nucleic acids which carry genetic information Carbohydrates which store energy in a form that can be used by living cells Lipids which also store energy but in a more concentrated form and which may be stored for extended periods in the bodies of animalsOther candidates EditThere are not many other elements that appear to be promising candidates for supporting biological systems and processes as fundamentally as carbon does for example processes such as metabolism The most frequently suggested alternative is silicon 13 Silicon shares a group in the periodic table with carbon can also form four valence bonds and also bonds to itself readily though generally in the form of crystal lattices rather than long chains citation needed Despite these similarities silicon is considerably more electropositive than carbon and silicon compounds do not readily recombine into different permutations in a manner that would plausibly support lifelike processes citation needed Fiction EditSpeculations about the chemical structure and properties of hypothetical non carbon based life have been a recurring theme in science fiction Silicon is often used as a substitute for carbon in fictional lifeforms because of its chemical similarities In cinematic and literary science fiction when man made machines cross from non living to living this new form is often presented as an example of non carbon based life Since the advent of the microprocessor in the late 1960s such machines are often classed as silicon based life Other examples of fictional silicon based life can be seen in the 1967 episode The Devil in the Dark from Star Trek The Original Series in which a living rock creature s biochemistry is based on silicon and in the 1994 The X Files episode Firewalker in which a silicon based organism is discovered in a volcano In the 1984 film adaptation of Arthur C Clarke s 1982 novel 2010 Odyssey Two a character argues Whether we are based on carbon or on silicon makes no fundamental difference we should each be treated with appropriate respect 14 See also EditHypothetical types of biochemistry CHONPS a mnemonic acronym for the order of the most common elements in living organisms carbon hydrogen oxygen nitrogen phosphorus and sulfurReferences Edit Knowledge reference for national forest assessments modeling for estimation and monitoring www fao org Retrieved Feb 20 2019 Allison Steven D Vitousek Peter M 2005 05 01 Responses of extracellular enzymes to simple and complex nutrient inputs Soil Biology and Biochemistry 37 5 937 944 doi 10 1016 j soilbio 2004 09 014 ISSN 0038 0717 Astrobiology Biology Cabinet September 26 2006 Retrieved 2011 01 17 Polycyclic Aromatic Hydrocarbons An Interview With Dr Farid Salama Astrobiology magazine 2000 Archived from the original on 2008 06 20 Retrieved 2008 10 20 Darling David Carbon based life Encyclopedia of Life Retrieved 14 September 2007 There are close to ten million known carbon compounds many thousands of which are vital to organic and life processes Chemistry Operations December 15 2003 Carbon Los Alamos National Laboratory Archived from the original on 2008 09 13 Retrieved 2008 10 09 Bar On Yinon M Phillips Rob Milo Ron May 21 2018 The biomass distribution on Earth Proceedings of the National Academy of Sciences 115 25 6506 6511 doi 10 1073 pnas 1711842115 PMC 6016768 PMID 29784790 editor Damian Carrington Environment May 21 2018 Humans just 0 01 of all life but have destroyed 83 of wild mammals study The Guardian Retrieved Feb 20 2019 via www theguardian com a href Template Cite news html title Template Cite news cite news a last has generic name help Reece Jane B 31 October 2013 Campbell Biology 10 ed Pearson ISBN 9780321775658 Stephen Hawking 1 October 2008 Life in the Universe 50th anniversary celebration of NASA NASA Retrieved 28 August 2015 Horowitz N H 1986 Utopia and Back and the search for life in the solar system New York W H Freeman and Company ISBN 0 7167 1766 2 Molnar Charles Gair Jane 2015 05 14 2 3 Biological Molecules a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Pace NR 2001 The universal nature of biochemistry Proceedings of the National Academy of Sciences of the United States of America 98 3 805 8 Bibcode 2001PNAS 98 805P doi 10 1073 pnas 98 3 805 PMC 33372 PMID 11158550 2010 Quotes IMDb Archived from the original on 12 January 2017 Retrieved 26 July 2017 External links Edit Encyclopedia of Astrobiology Astronomy amp Spaceflight Retrieved 2006 03 14 School of Chemistry University of Bristol United Kingdom Retrieved from https en wikipedia org w index php title Carbon based life amp oldid 1115702287, wikipedia, wiki, book, books, library,

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