Thursday, April 24, 2008

Tutorial Series

I will be visiting basics of computational biology in a series of tutorials that I will be preparing based on my knowledge of the subject. These will include sequence analysis methods, microRNAs: the biology, predictions and functions, modeling and simulation methods, basic genomics and much more... So keep reading and please feel free to post any comments...

Thursday, April 03, 2008

miRNA companies

Asuragen Launches New Company Focused on miRNAs. Read more here.

Columbia University Medical Center and Rosetta Genomics Announce Columbia University's Submission of the First Cancer Diagnostic Test Based on Rosetta Genomics Proprietary MicroRNA Technology for Approval to the New York State Department of Health Clinical Laboratory Evaluation Program


Tuesday, April 01, 2008

new softwares for bioinformatics

RNACompress: A novel way to compress RNA sequence and secondary structure

Background

With the rapid emergence of RNA databases and newly identified non-coding RNAs, an efficient compression algorithm for RNA sequence and structural information is needed for the storage and analysis of such data. Although several algorithms for compressing DNA sequences have been proposed, none of them are suitable for the compression of RNA sequences with their secondary structures simultaneously. This kind of compression not only facilitates the maintenance of RNA data, but also supplies a novel way to measure the informational complexity of RNA structural data, raising the possibility of studying the relationship between the functional activities of RNA structures and their complexities, as well as various structural properties of RNA based on compression.

Results
RNACompress employs an efficient grammar-based model to compress RNA sequences and their secondary structures. The main goals of this algorithm are two fold: (1) present a robust and effective way for RNA structural data compression; (2) design a suitable model to represent RNA secondary structure as well as derive the informational complexity of the structural data based on compression. Our extensive tests have shown that RNACompress achieves a universally better compression ratio compared with other sequence-specific or common text-specific compression algorithms, such as Gencompress, winrar and gzip. Moreover, a test of the activities of distinct GTP-binding RNAs (aptamers) compared with their structural complexity shows that our defined informational complexity can be used to describe how complexity varies with activity. These results lead to an objective means of comparing the functional properties of heteropolymers from the information perspective.

Conclusions

A universal algorithm for the compression of RNA secondary structure as well as the evaluation of its informational complexity is discussed in this paper. We have developed RNACompress, as a useful tool for academic users. Extensive tests have shown that RNACompress is a universally efficient algorithm for the compression of RNA sequences with their secondary structures. RNACompress also serves as a good measurement of the informational complexity of RNA secondary structure, which can be used to study the functional activities of RNA molecules.