Rabbit Reticulocyte Lysate Translation Systems: Tools for the analysis of translational regulation

TEM of Norovirus particles. Photo Credit: Charles D. Humphrey, Centers for Disease Control and Prevention
TEM of Norovirus particles. Photo Credit: Charles D. Humphrey, Centers for Disease Control and Prevention
Rabbit Reticulocyte Lysate Translation Systems are used in the identification of mRNA species, the characterization of their protein products and the investigation of transcriptional and translational control. Rabbit Reticulocyte Lysate is prepared from New Zealand white rabbits. After the reticulocytes are lysed, the extract is treated with micrococcal nuclease to destroy endogenous mRNA and thus reduce background translation to a minimum.

Untreated Lysate is prepared from New Zealand white rabbits in the same manner as treated lysates with the exception that it is not treated with micrococcal nuclease. Unlike a coupled system that initiates transcription/translation from DNA, the RNA-based rabbit reticulocyte can be used for the direct investigation of transcriptional/translational control and the replication of RNA-based viruses.


References

Characterization of translation regulation (i.e., UTRs, Capping, IRES)

  1. Nguyen, H-L .et al. (2013) Expression of a novel mRNA transcript for human microsomal epoxide hydrolase is regulated by short reading frames within it 5’ –untranslated region. RNA. 19, 752–66.
  2. Wei, J. et al. (2013) The stringency of start codon selection in the filamentous fungus Neurospora crass. J. Biol. Chem. 288, 9549–62.
  3. Paek Ki-Y. et al. (2012) Cap-Dependent translation without base-by-base scanning of an messenger ribonucleic acid. Nucl. Acid. Res. 40, 7541–51.
  4. Se, and NH. Su.W. et al. (2011) Translation, stability, and resistance to decapping of mRNA containing caps substituted in the triphosphate with BH3. RNA 17, 978–88.
  5. Anderson, D. et al. (2011) Nucleoside modifications in RNA limit activation of 2’-5’ oligoadenylate synthetase and increase resistance to cleavage by RNase L. Nucl. Acid. Res. 39, 9329-38.

RNA virus Characterization

  1. Vashist, S. et al. (2012) Identification of RNA-protein interaction networks involved in the Norovirus life cycle. J. Vir. 86, 11977–90.
  2. Soto-Rifo, R. et al. (2012) Different effects of the TAR structure on HIV-1 and HIV-2 genomics RNA translation. Nucl. Acids. Res. 40, 2653–67.
  3. Poyry, T. et al. (2011) Mechanisms governing the selection of translation initiation sites on Foot-and-Mouth Disease Virus RNA. J.Vir. 85, 10178–88.
  4. Cheng, E. et al. (2011) Characterization of the interaction between Hantavirus nucleopcapsid protein and ribosomal protein S19. J. Biol. Chem. 286, 11814–24.
  5. Vera-Otarola, J. et al. (2011) The Andes Hantavirus NSs Protein is expressed from the Viral mRMA by a leaky scanning mechanism. J. Vir. 86, 2176–87.
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Gary Kobs

Gary Kobs

Strategic Marketing Manager at Promega Corporation
Gary earned his B.S. in Bacteriology, UW-Madison in 1982. From 1982–1986 he served as Research Tech at UW-Madison. From 1986 to the present Gary has been with Promega Corporation serving in many capacities including as the very first editor of Promega Notes. He was also Manager Tech Services and Training, Product Manager Restriction/Modifying Enzymes, Product Manager Protein Analysis, and is now Sr. Product Manager for Protein Analysis products.

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