Thesis advisor: Peter CloteRNA molecules play important roles in living organisms, such as protein translation, gene regulation, and RNA processing. It is known that RNA secondary structure is a scaffold for tertiary structure leading to extensive amount of interest in RNA secondary structure. This thesis is primarily focused on the development of novel algorithms for the analysis of RNA secondary structure evolution and folding kinetics. We describe a software RNAsampleCDS to generate mRNA sequences coding user-specified peptides overlapping in up to six open reading frames. Sampled mRNAs are then analyzed with other tools to provide an estimate of their secondary structure properties. We investigate homology of RNAs with respect to both s...
The ability of certain RNAs to fold into complicated secondary and tertiary structures provides them...
RNA genes are ubiquitous in the cell and are involved in a number of biochemical processes. Since th...
RNA secondary structures with pseudoknots are often predicted by minimizing free energy, which is NP...
RNA secondary structure prediction is an area where computational techniques have shown great promis...
Nowadays, RNA is extensively acknowledged an important role in the functions of information transfer...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Biochemistry and B...
Non-coding RNAs are biologically important molecules, with a variety of catalytic and regulatory act...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
Unlike message RNAs (mRNAs) whose information is encoded in the primary sequences, the cellular role...
Gardner PP, Giegerich R. A comprehensive comparison of comparative RNA structure prediction approach...
In this doctoral thesis, efficient algorithms for aligning RNA secondary structures and mining unkno...
textRNA molecules form complex higher-order structures which are essential to perform their biologic...
Dynamic Programming Algorithms solve many standard problems of RNA bioinformatics in polynomial time...
We present a new method for predicting the secondary structure of RNA sequences. Using our method, e...
The diverse functional roles of RNA are determined by its underlying structure. Accurate and compreh...
The ability of certain RNAs to fold into complicated secondary and tertiary structures provides them...
RNA genes are ubiquitous in the cell and are involved in a number of biochemical processes. Since th...
RNA secondary structures with pseudoknots are often predicted by minimizing free energy, which is NP...
RNA secondary structure prediction is an area where computational techniques have shown great promis...
Nowadays, RNA is extensively acknowledged an important role in the functions of information transfer...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Biochemistry and B...
Non-coding RNAs are biologically important molecules, with a variety of catalytic and regulatory act...
In the realm of nucleic acid structures, secondary structure forms a conceptually important intermed...
Unlike message RNAs (mRNAs) whose information is encoded in the primary sequences, the cellular role...
Gardner PP, Giegerich R. A comprehensive comparison of comparative RNA structure prediction approach...
In this doctoral thesis, efficient algorithms for aligning RNA secondary structures and mining unkno...
textRNA molecules form complex higher-order structures which are essential to perform their biologic...
Dynamic Programming Algorithms solve many standard problems of RNA bioinformatics in polynomial time...
We present a new method for predicting the secondary structure of RNA sequences. Using our method, e...
The diverse functional roles of RNA are determined by its underlying structure. Accurate and compreh...
The ability of certain RNAs to fold into complicated secondary and tertiary structures provides them...
RNA genes are ubiquitous in the cell and are involved in a number of biochemical processes. Since th...
RNA secondary structures with pseudoknots are often predicted by minimizing free energy, which is NP...