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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
MeSH Review

Heavy Ions

 
 
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Disease relevance of Heavy Ions

 

High impact information on Heavy Ions

  • This Letter describes the measurement of the energy dependence of elliptic flow for charged particles in Au+Au collisions using the PHOBOS detector at the Relativistic Heavy Ion Collider [3].
  • We predict large rates in pp interactions at the Fermilab Tevatron and in pp and heavy ion interactions at the CERN Large Hadron Collider [4].
  • We calculate the rapidity and transverse momentum distributions as well as the 4pi multiplicity of the H0 for sqrt[s]=17 GeV (Super Proton Synchrotron) and 200 GeV (Relativistic Heavy Ion Collider) [5].
  • For the 10% most central collisions, the (-)Xi(+)/h(-) ratio increases from the Super Proton Synchrotron to the Relativistic Heavy Ion Collider energies while the Xi(-)/h(-) stays approximately constant [6].
  • Balance functions have been measured for charged particle pairs and identified charged pion pairs in Au+Au collisions at the square root of SNN = 130 GeV at the Relativistic Heavy Ion Collider using STAR [7].
 

Biological context of Heavy Ions

 

Anatomical context of Heavy Ions

 

Associations of Heavy Ions with chemical compounds

  • This Letter presents experimental confirmation of the presence of zonal flows in magnetically confined toroidal plasma using an advanced diagnostic system--dual heavy ion beam probes [14].
  • Letter: Heavy-ion radiolysis of solid glycine [15].
  • The lifetimes of both deprotonated adenosine 5(')-monophosphate (AMP) and protonated AMP, after 266-nm photon absorption and intramolecular vibrational redistribution, were determined to be 16 micros based on a newly developed heavy-ion storage ring technique [16].
  • The interpretation is that heavy ion beams reach and kill hypoxic cells not penetrated by the misonidazole, and some hypoxic cells not killed by the high LET component receive low LET damage which is made lethal by the drug [17].
  • Heavy-ion irradiation of sucrose produces stable free radicals [8].
 

Gene context of Heavy Ions

  • Our results suggest that p53 suppresses deletion mutations induced by heavy-ion irradiation in an organ-specific manner [18].
  • Induction of lacI- forward mutations in Escherichia coli Ymcl and his(-)-->his+ reversions in Salmonella typhimurium TA102 was investigated after irradiation with heavy ions in the range of Z = 1-36 [19].
  • Dielectronic recombination resonances of Pb (79+) associated with 2s(1/2)-->2p(1/2) excitations were measured at the heavy-ion storage ring ESR at GSI [20].
  • Extrapolating to SU(3), we predict dN/L2/d eta for values of g(2)mu L relevant to the Relativistic Heavy Ion Collider and the Large Hadron Collider [21].
  • A study of DR of H(2)O(+) to give O + H + H was carried out at the CRYRING Heavy-Ion Storage Ring in Stockholm [22].
 

Analytical, diagnostic and therapeutic context of Heavy Ions

  • The heavy ion CT system is proposed which is based on measurement of the residual range distribution by a fluoroscopy detector consisting of an intensifying screen and a CCD video camera [23].

References

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