WordNet

an individual or group or structure or other entity regarded as a structural or functional constituent of a whole; "the reduced the number of units and installations"; "the word is a basic linguistic unit"
a single undivided natural thing occurring in the composition of something else; "units of nucleic acids" (同)building_block
an organization regarded as part of a larger social group; "the coach said the offensive unit did a good job"; "after the battle the soldier had trouble rejoining his unit" (同)social unit
a single undivided whole; "an idea is not a unit that can be moved from one brain to another"
characterized by unity; being or joined into a single entity; "presented a united front"

PrepTutorEJDIC

《集合的に》『構成単位』;(学習の)『単元』;(全体を構成する)部門,部隊 / (特定用途の)設備[一式],器具[一そろい] / (測定基準としての)『単位』;(…の)単位《+of+名》,(…する)単位《+for doing》 / 正の最小整数(1)
一致協力した,協調の / 共同した,提携した,団結した / 連合した,合併した
=one

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出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2017/06/19 03:15:50」(JST)

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A laboratory ultracentrifuge.

A svedberg unit (symbol S, sometimes Sv) is a non-metric unit for sedimentation rate. The sedimentation rate for a particle of a given size and shape measures how fast the particle 'settles', the sedimentation. It is often used to reflect the rate at which a molecule travels to the bottom of a test tube under the centrifugal force of a centrifuge.^[1] The svedberg is actually a measure of time; it is defined as exactly 10⁻¹³ seconds (100 fs).

The Svedberg unit (S) offers a measure of particle size based on its rate of travel in a tube subjected to high g-force.^[1]

It should not be confused with SI unit sievert or the non-SI sverdrup, which also use the symbol Sv.

Naming

The unit is named after the Swedish chemist Theodor Svedberg (1884–1971), winner of the 1926 Nobel Prize^[2] in chemistry for his work on disperse systems, colloids and his invention of the ultracentrifuge.

Factors

The Svedberg coefficient is a nonlinear function.^[1] A particle's mass, density, and shape will determine its S value. It depends on the frictional forces retarding its movement, which, in turn, are related to the average cross-sectional area of the particle.^[1]

The sedimentation coefficient is the ratio of the speed of a substance in a centrifuge to its acceleration in comparable units. A substance with a sedimentation coefficient of 26S (26×10⁻¹³ s) will travel at 26 micrometers per second (26×10⁻⁶ m/s) under the influence of an acceleration of a million gravities (10⁷ m/s²). Centrifugal acceleration is given as rω²; where r is the radial distance from the rotation axis and ω is the angular velocity in radians per second.

Bigger particles tend to sediment faster and so have higher svedberg values.

Svedberg units are not directly additive since they represent a rate of sedimentation, not weight.^[1]

Use

In centrifugation of small biochemical species, a convention has developed in which sedimentation coefficients are expressed in the Svedberg units.

The svedberg is the most important measure used to distinguish ribosomes. Ribosomes are composed of two complex subunits, each of which includes rRNA and protein components. In prokaryotes (bacteria), the subunits are named 30S and 50S for their "size" in Svedberg units. These subunits are made up of three forms of rRNA: 16S, 23S, and 5S.^[1]

For bacterial ribosomes, ultracentrifugation yields intact ribosomes (70S) as well as separated ribosomal subunits, the large subunit (50S) and the small subunit (30S). Within cells, ribosomes normally exist as a mixture of joined and separate subunits. The largest particles (whole ribosomes) sediment near the bottom of the tube, whereas the smaller particles (separate 50S and 30S subunits) appear in upper fractions.^[1]

References

^ ^a ^b ^c ^d ^e ^f ^g Slonczewski, Joan; Foster, John Watkins (2009). Microbiology: An Evolving Science. New York: W.W. Norton. ISBN 9780393978575.
^ https://www.nobelprize.org/nobel_prizes/chemistry/laureates/1926/

External links

Svedberg unit - nobelprize.org

UpToDate Contents

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English Journal

Psychosocial working conditions, occupational groups, and risk of disability pension due to mental diagnoses: a cohort study of 43 000 Swedish twins.

Samuelsson A, Ropponen A, Alexanderson K, Svedberg P.SourceDivision of Insurance Medicine, Department of Clinical Neuroscience, Karolinska -Institutet, Berzelius väg 3, SE-171 77 Stockholm, Sweden. asa.samuelsson@ki.se.
Scandinavian journal of work, environment & health.Scand J Work Environ Health.2012 Dec 17. pii: 3338. doi: 10.5271/sjweh.3338. [Epub ahead of print]
OBJECTIVES: The aim of this study was to investigate associations between psychosocial working conditions, occupational groups defined by sector, and disability pension (DP) with mental diagnoses while accounting for familial confounding.METHODS: A prospective population-based cohort study was condu
PMID 23248027

Dietary fat manipulation has a greater impact on postprandial lipid metabolism than the apolipoprotein E (epsilon) genotype-insights from the SATgenε study.

Jackson KG, Lockyer S, Carvalho-Wells AL, Williams CM, Minihane AM, Lovegrove JA.SourceHugh Sinclair Unit of Human Nutrition, Department of Food and Nutritional Sciences, University of Reading, Reading, UK. k.g.jackson@reading.ac.uk
Molecular nutrition & food research.Mol Nutr Food Res.2012 Dec;56(12):1761-70. doi: 10.1002/mnfr.201200452. Epub 2012 Oct 24.
SCOPE: Our aim was to determine the effects of chronic dietary fat manipulation on postprandial lipaemia according to apolipoprotein (APO)E genotype.METHODS AND RESULTS: Men (mean age 53 (SD 9) years), prospectively recruited for the APOE genotype (n = 12 E3/E3, n = 11 E3/E4), were assigned to a low
PMID 23097177

Personality traits and life dissatisfaction as risk factors for disability pension due to low back diagnoses: a 30-year longitudinal cohort study of Finnish twins.

Ropponen A, Svedberg P, Huunan-Seppälä A, Koskenvuo K, Koskenvuo M, Alexanderson K, Silventoinen K, Kaprio J.SourceInstitute of Biomedicine, University of Eastern Finland, Finland. annina.ropponen@uef.fi
Journal of psychosomatic research.J Psychosom Res.2012 Oct;73(4):289-94. doi: 10.1016/j.jpsychores.2012.07.003. Epub 2012 Jul 28.
OBJECTIVE: Little is known about the association of mild symptoms and mental well-being with risk of disability pension (DP) due to somatic diagnoses, even less for DP due to low back diagnoses (LBD). Moderate genetic influences on personality traits, life dissatisfaction and DP exist suggesting tha
PMID 22980535

Japanese Journal

Solution properties of phycocyanin. VI. The characterization of the phycocyanin monomer.

Saito Takahide,Iso Naomichi,Mizuno Haruo,Ozeki Fumiaki,Matsui Yoshiyuki
Bulletin of the Chemical Society of Japan 53(3), 599-602, 1980
… The sedimentation coefficient, <I>s</I><SUB>25w</SUB>, was 2.21 Svedberg unit, and the intrinsic viscosity in 6 mol/1 GndCl was 19.5 ml/g, at 25.0 °C. …
NAID 130001988041

「スベドベリ単位」

　　[★]

英: Svedberg unit、S value
関: Svedberg単位

「Svedberg単位」

　　[★]

英: Svedberg unit
関: スベドベリ単位

「S value」

　　[★]

スベドベリ単位

関: Svedberg unit

「unit」

　　[★]

n.

単位、ユニット
(アルコールの量)

アルコールの量 unit

1unitの量が国によって違う。純エタノール換算で、1英unitは8g=10ml（英糖尿病協会採用の数値）、1米unitは15g（20ml弱：1drinkとも）で、日本では10～14g程度（代謝熱量80Kcalが基準：食品成分表5訂版,2002）や20ないし23g（日本酒1合分）を1unitとしている。日本の医学界では1unit=20g（体積に換算すると25ml）を採用することが多いので、ここでもそれに従う。この基準（1unit=20g=25ml）で計算すると、40度のウィスキー1ショット（＝1オンス：英液量オンスで28.41ml、米液量オンスで29.57ml、日本の1ショットで30ml）が約0.5unitとなる。5度のビールなら500mlでだいたい1unit（この、日本酒1合≒ウィスキーダブル≒ビール500cc≒1unitという関係は、覚えておくと便利かもしれない：ワインなどは日本酒に準じるので、1本750mlがだいたい4unit強である）。 (参考1.より引用)