Omics

Omics

The English-language neologism omics informally refers to a field of study in biology ending in -omics, such as genomics or proteomics. The related suffix -ome is used to address the objects of study of such fields, such as the genome or proteome, respectively.

Functional genomics aims at identifying the functions of as many genes as possible of a given organism. It combines different -omics techniques such as transcriptomics and proteomics with saturated mutant collections.[1]

The suffix -ome as used in molecular biology refers to a totality of some sort; it is an example of a "neo-suffix" formed by abstraction from various Greek terms in -ωμα, a sequence that does not form an identifiable suffix in Greek.

Contents

Origin

The Oxford English Dictionary (OED) distinguishes three different fields of application for the -ome suffix:

  1. in medicine, forming nouns with the sense "swelling, tumour"
  2. in botany or zoology, forming nouns in the sense "a part of an animal or plant with a specified structure"
  3. in cellular and molecular biology, forming nouns with the sense "all constituents considered collectively".

The -ome suffix originated as a variant of -oma, and became productive in the last quarter of the 19th century. It was originally found in terms like sclerome[2] or rhizome.[2] All of these are terms derived from Greek words in -ωμα,[2] a sequence that is not a single suffix, but analyzable as -ω-μα, the -ω- belonging to the word stem, usually a verb, and the -μα being a genuine Greek suffix forming abstract nouns.

OED suggests that the third definition originated as a back-formation from mitome,[2] Early attestations include biome (1916)[3] and genome (first coined as German Genom in 1920[4]).[5]

The association with chromosome in molecular biology is by false etymology. The word chromosome derives from the Greek stems χρωμ(ατ)- "colour" and σωμ(ατ)- "body".[5] While σωμα "body" genuinely contains the -μα suffix, the preceding -ω- is not a stem-forming suffix but part of the word's root. Because genome refers to the complete genetic makeup of an organism, a neo-suffix -ome suggested itself as referring to "wholeness" or "completion".[6]

Bioinformaticians and molecular biologists figured amongst the first scientists to start to apply the "-ome" suffix widely. Some early advocates were bioinformaticians in Cambridge, UK, where there were many early bioinformatics labs such as the MRC centre, Sanger centre, and EBI (European Bioinformatics Institute). For example, the MRC centre is where the first genome and proteome projects were carried out.

Unrelated words in -omics

The word “comic” does not use the "omics" suffix; it derives from Greek “κωμ(ο)-” (merriment) + “-ικ(ο)-” (an adjectival suffix), rather than presenting a truncation of “σωμ(ατ)-”.

Similarly, the word “economy” is assembled from Greek “οικ(ο)-” (household) + “νομ(ο)-” (law or custom), and “economic(s)” from “οικ(ο)-” + “νομ(ο)-” + “-ικ(ο)-”. The suffix -omics is sometimes used to create portmanteau words to refer to schools of economics such as Reaganomics.

Current usage

Many “omes” beyond the original “genome” have become useful and have been widely adopted by research scientists. “Proteomics” has become well-established as a term for studying proteins at a large scale. "Omes" can provide an easy short-hand to encapsulate a field; for example, an interactomics study is clearly recognisable as relating to large-scale analyses of gene-gene, protein-protein, or protein-ligand interactions. Researchers are rapidly taking up omes and omics, as shown by the explosion of the use of these terms in PubMed since the mid '90s.[7]

Notes

  1. ^ Hauke Holtorf, Marie-Christine Guitton, Ralf Reski(2002): Plant functional genomics. Naturwissenschaften 89, 235–249. doi:10.1007/s00114-002-0321-3
  2. ^ a b c d "scleroma, n : Oxford English Dictionary". http://www.oed.com/view/Entry/172822. Retrieved 2011-04-25. 
  3. ^ "biome, n. : Oxford English Dictionary". http://www.oed.com/view/Entry/19231. Retrieved 2011-04-25. 
  4. ^ Hans Winkler (1920). Verbreitung und Ursache der Parthenogenesis im Pflanzen - und Tierreiche. Verlag Fischer, Jena. p. 165. http://www.biodiversitylibrary.org/item/16372#page/177/mode/1up. "Ich schlage vor, für den haploiden Chromosomensatz, der im Verein mit dem zugehörigen Protoplasma die materielle Grundlage der systematischen Einheit darstellt den Ausdruck: das Genom zu verwenden ... " In English: " I propose the expression Genom for the haploid chromosome set, which, together with the pertinent protoplasm, specifies the material foundations of the species ..." 
  5. ^ a b Coleridge, H.; et alii. The Oxford English Dictionary
  6. ^ Liddell,, H.G.; Scott, R.; et alii. A Greek-English Lexicon [1996].(Search at Perseus Project.)
  7. ^ Omes Table, Gerstein Lab

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