1. Biochemistry and Chemical Biology

eIF1A residues implicated in cancer stabilize translation preinitiation complexes and favor suboptimal initiation sites in yeast

  1. Pilar Martin-Marcos
  2. Fujun Zhou
  3. Charm Karunasiri
  4. Fan Zhang
  5. Jinsheng Dong
  6. Jagpreet Nanda
  7. Neelam Sen
  8. Mercedes Tamame
  9. Michael Zeschnigk
  10. Jon R Lorsch  Is a corresponding author
  11. Alan G Hinnebusch  Is a corresponding author
  1. National Institutes of Health, United States
  2. Universidad de Salamanca, Spain
  3. University Duisburg-Essen, Germany
https://doi.org/10.7554/eLife.31250
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  1. Pilar Martin-Marcos
  2. Fujun Zhou
  3. Charm Karunasiri
  4. Fan Zhang
  5. Jinsheng Dong
  6. Jagpreet Nanda
  7. Neelam Sen
  8. Mercedes Tamame
  9. Michael Zeschnigk
  10. Jon R Lorsch
  11. Alan G Hinnebusch
(2017)
eIF1A residues implicated in cancer stabilize translation preinitiation complexes and favor suboptimal initiation sites in yeast
eLife 6:e31250.
https://doi.org/10.7554/eLife.31250
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  1. Pilar Martin-Marcos
  2. Fujun Zhou
  3. Charm Karunasiri
  4. Fan Zhang
  5. Jinsheng Dong
  6. Jagpreet Nanda
  7. Neelam Sen
  8. Mercedes Tamame
  9. Michael Zeschnigk
  10. Jon R Lorsch
  11. Alan G Hinnebusch
(2017)
eIF1A residues implicated in cancer stabilize translation preinitiation complexes and favor suboptimal initiation sites in yeast
eLife 6:e31250.
https://doi.org/10.7554/eLife.31250