Ribosomal structure: it helps to know some background information

This year's Nobel Prize in Chemistry has been awarded to Venki Ramakrishnan, Tom Steitz, and Ada Yonath "for studies of the structure and function of the ribosome."

My connection with ribosomal structure began with the 50S large subunit of Haloarcula marismortui solved by Tom Steitz's group. Ever since the fully refined crystal structure at 2.4 Å resolution was published in 2001 (PDB entry: 1jj2; NDB code: rr0033), I have been using it to check 3DNA's applicability. In the two 3DNA papers (2003 NAR and 2008 NP), 1jj2 was used as an example to illustrate how find_pair can identify higher-order base-associations in complicated RNA containing structures. At the time, though, my understanding of the ribosomal RNA structure was purely geometrical: for quite a while, I got overwhelmed by the various biological terminologies, including the various S-es: 50S large ribosomal subunit vs. the 23S and 5S rRNA; and of course, the 30S small subunit vs. 16S rRNA.

Over the past year or so, I have become more interested in RNA structures. After reading a lot of related articles, gradually I feel things are becoming clearer than before. Nevertheless, there is something still missing, since my focus has (mostly) been on recent X-ray crystal structure-related work. My understanding of the ribosomal structure was finally put into context, thanks to following two recent publications:

• One in Cell by James Williamson, titled "The Ribosome at Atomic Resolution".
• Another one in Mol. Cell (in parallel and at the same time) by Joseph Puglisi, titled "Resolving the Elegant Architecture of the Ribosome".

These two papers not only summarized the significance of work of the three Nobel laureates — "the atomic resolution structures of the ribosomal subunits provide an extraordinary context for understanding one of the most fundamental aspects of cellular function: protein synthesis" — but also provided background information of decades of work from other players, including Harry Noller, Peter Moore, and Joachim Frank. Solving the ribosomal structure serves as a good example of how the fact that scientific research is both cooperative and competitive in nature.