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".
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