RNA structures are important for many biological processes in the cell. One important function of RNA are as catalytic elements. Ribozymes are RNA sequences that fold to form active structures that catalyze important chemical reactions. The folded structure for these RNA are very important; only specific conformations maintain these active structures, so it is very important for RNA to fold in a specific way. The RNA design problem describes the prediction of an RNA sequence that will fold into a given RNA structure. Solving this problem allows researchers to design RNA; they can decide on what folded secondary structure is required to accomplish a task, and the algorithm will give them a primary sequence to assemble. However, there are far...
Ribonucleic acid (RNA) is essential for all forms of life. RNA is made up of a large chain of nucleo...
Though not as abundant in known biological processes as proteins,RNA molecules serve as more than me...
The structure of RNA molecules is often crucial for their function. Therefore, designing RNA sequenc...
Most of the biological processes including expression levels of genes and translation of DNA to prod...
Ribonucleic acids play fundamental roles in cellular processes and their function is directly relate...
RNA secondary structure prediction is an area where computational techniques have shown great promis...
International audienceComputational programs for predicting RNA sequences with desired folding prope...
RNA design is the inverse of RNA folding and it appears to be NP-hard. In RNA design, a secondary st...
International audienceThe overall architecture of an RNA can be predicted with acceptable accuracy u...
AbstractDesigning RNAs that form specific secondary structures is enabling better understanding and ...
RNA molecules, the fundamental building blocks of life, are chains of nucleotides that can bond to p...
Background: We investigate the empirical complexity of the RNA secondary structure ...
We present a new method for predicting the secondary structure of RNA sequences. Using our method, e...
Ribonucleic Acids (RNAs) are extremely important biomolecules that are involved in many cellular pro...
Ribonucleic acid (RNA) is essential for all forms of life. RNA is made up of a large chain of nucleo...
Ribonucleic acid (RNA) is essential for all forms of life. RNA is made up of a large chain of nucleo...
Though not as abundant in known biological processes as proteins,RNA molecules serve as more than me...
The structure of RNA molecules is often crucial for their function. Therefore, designing RNA sequenc...
Most of the biological processes including expression levels of genes and translation of DNA to prod...
Ribonucleic acids play fundamental roles in cellular processes and their function is directly relate...
RNA secondary structure prediction is an area where computational techniques have shown great promis...
International audienceComputational programs for predicting RNA sequences with desired folding prope...
RNA design is the inverse of RNA folding and it appears to be NP-hard. In RNA design, a secondary st...
International audienceThe overall architecture of an RNA can be predicted with acceptable accuracy u...
AbstractDesigning RNAs that form specific secondary structures is enabling better understanding and ...
RNA molecules, the fundamental building blocks of life, are chains of nucleotides that can bond to p...
Background: We investigate the empirical complexity of the RNA secondary structure ...
We present a new method for predicting the secondary structure of RNA sequences. Using our method, e...
Ribonucleic Acids (RNAs) are extremely important biomolecules that are involved in many cellular pro...
Ribonucleic acid (RNA) is essential for all forms of life. RNA is made up of a large chain of nucleo...
Ribonucleic acid (RNA) is essential for all forms of life. RNA is made up of a large chain of nucleo...
Though not as abundant in known biological processes as proteins,RNA molecules serve as more than me...
The structure of RNA molecules is often crucial for their function. Therefore, designing RNA sequenc...