אירועים
אירועים והרצאות בפקולטה למדעי המחשב ע"ש הנרי ומרילין טאוב
יום שלישי, 11.03.2014, 13:30
The main role of RNA as a mediator in the process of protein
construction out of DNA information, as expressed in Crick's "central
dogma of molecular biology", is challenged by recent discoveries regarding
the amount of non-protein-coding RNA (ncRNA) being transcribed, and the
diverse functionalities of some of these molecules. Some functional RNA
molecules are known for several decades now (e.g. tRNA and ribosomal RNA),
and other were more recently discovered (e.g. riboswitches), yet it is
speculated that many additional ncRNA molecules carry functionalities
which are still unknown.
As for proteins, information regarding the structure of RNA molecules is
valuable when studying their functional roles. Unfortunately, traditional
wet-lab structural inference techniques, such as X-ray crystallography and
NMR, are more difficult to apply to RNA than to proteins, and to date only
a relatively small number of RNA structures were determined using these
techniques. On the other hand, current sequencing technologies can
determine RNA sequences in a relatively accurate, fast, and cheap manners.
This motivates the development of computational tools that predict RNA
structures, given RNA sequences.
In this talk, we will present some of the main computational concepts in
the domain of RNA secondary structure prediction, and recent advanced
algorithmic techniques that may be applied in order to improve algorithms
for several related problem variants. As much as time permits, we will
discuss feature-modeling and machine-learning techniques to improve the
accuracy of RNA structure prediction, and sparsification and other
techniques to improve both time and space complexities of the standard RNA
folding algorithms.