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45 research outputs found

Folding and cytoplasm viscoelasticity contribute jointly to chromosome dynamics

Author: Cosentino-Lagomarsino M.
Gherardi M.
Polovnikov K. E.
Tamm M. V.
Publication venue: 'American Physical Society (APS)'
Publication date: 17/06/2017
Field of study

The chromosome is a key player of cell physiology, and its dynamics provides valuable information about its physical organization. In both prokaryotes and eukaryotes, the short-time motion of chromosomal loci has been described as a Rouse model in a simple or viscoelastic medium. However, little emphasis has been put on the role played by the folded organization of chromosomes on the local dynamics. Clearly, stress-propagation, and thus dynamics, must be affected by such organization, but a theory allowing to extract such information from data, e.g.\ of two-point correlations, is lacking. Here, we describe a theoretical framework able to answer this general polymer dynamics question, and we provide a general scaling analysis of the stress-propagation time between two loci at a given arclength distance along the chromosomal coordinate. The results suggest a precise way to detect folding information from the dynamical coupling of chromosome segments. Additionally, we realize this framework in a specific theoretical model of a polymer with variable-range interactions in a viscoelastic medium characterized by a tunable scaling exponent, where we derive analytical estimates of the correlation functions.Comment: 14 pages including supplementary material

arXiv.org e-Print Archive

AIR Universita degli studi di Milano

A kinematical selection of glueball candidates in central production

A study of central meson production as a function of the difference in transverse momentum (

dP_T

) of the exchanged particles shows that undisputed

q \overline q

mesons are suppressed at small

dP_T

whereas the glueball candidates are enhanced

HAL-IN2P3

Hal - Université Grenoble Alpes

HAL Université de Savoie

Hal-Diderot

A study of the centrally produced $\pi^{+}\pi^{-} \pi^{0}$ channel in pp interactions at $450 GeV/c$

HAL-IN2P3

Hal - Université Grenoble Alpes

HAL Université de Savoie

Hal-Diderot

A partial wave analysis of the centrally produced $K^{+}K^{-}$ and $K^{0}_{s}K^{0}_{s}$ systems in pp interactions at 450 GeV/c and new information on the spin of the $f_{1}$ (1710)

Author: Barberis D.
Beusch W.
Binon F G.
Blick A M.
Close F E.
Danielsen K M.
Dolgopolov A V.
Donskov S V.
Earl B C.
Evans D.
French B R.
Hino T.
Inaba S.
Inyakin A V.
Ishida T.
Jacholkowski A.
Jacobsen T.
Khaustov G V.
Kinashi T.
Kinson J B.
Kirk A.
Klempt W.
Kolosov V.
Kondashov A A.
Lednev A A.
Lenti V.
Maljukov S.
Martinengo P.
Minashvili I.
Myklebost K.
Nakagawa T.
Norman K L.
Olsen J M.
Peigneux J P.
Polovnikov S A.
Polyakov V A.
Prokoshkin Yu D.
Romanovsky V.
Rotscheidt H.
Rumyantsev V.
Russakovich N.
Samoylenko V D.
Semenov A.
Sene M.
Sene R.
Shagin P M.
Shimizu H.
Singovsky A V.
Sobol A.
Solovjev A.
Stassinaki M.
Stroot J P.
Sugonyaev V P.
Takamatsu K.
Tchlatchidze G.
Tsuru T.
Vassiliadis G.
Venables M.
Villalobos Baillie O.
Votruba M F.
Yasu Y.
Publication venue: 'Elsevier BV'
Publication date: 01/01/1999
Field of study

A partial wave analysis of the centrally produced K+K- and K0K0 channels has been performed in pp collisions using an incident beam momentum of 450 GeV/c. An unambiguous physical solution has been found in each channel. The striking feature is the observation of peaks in the S-wave corresponding to the f0(1500) and fJ(1710) with J = 0. The D-wave shows evidence for the f2(1270)/a2(1320), the f2(1525) and the f2(2150) but there is no evidence for a statistically significant contribution in the D-wave in the 1.7 GeV mass region

HAL-IN2P3

Hal - Université Grenoble Alpes

HAL Université de Savoie