BackgroundStructure profiling experiments provide single-nucleotide information on RNA structure. Recent advances in chemistry combined with application of high-throughput sequencing have enabled structure profiling at transcriptome scale and in living cells, creating unprecedented opportunities for RNA biology. Propelled by these experimental advances, massive data with ever-increasing diversity and complexity have been generated, which give rise to new challenges in interpreting and analyzing these data.ResultsWe review current practices in analysis of structure profiling data with emphasis on comparative and integrative analysis as well as highlight emerging questions. Comparative analysis has revealed structural patterns across transcri...
We present an integrative approach, SeqFold, that combines high-throughput RNA structure profiling d...
With increasing recognition of the roles RNA molecules and RNA/protein complexes play in an unexpect...
Höchsmann M, Voss B, Giegerich R. Pure multiple RNA secondary structure alignments: A progressive pr...
BackgroundStructure profiling experiments provide single-nucleotide information on RNA structure. Re...
RNA is a key biopolymer that mechanistically drives many cellular processes. As a single-stranded mo...
Motivation: RNAs fold into complex structures that are integral to the diverse mechanisms under-lyin...
Background: RNA molecules fold into complex three-dimensional shapes, guided by the pattern of hydro...
Abstract Background An increasing number of researchers have released novel RNA structure analysis a...
Motivation: RNAs fold into complex structures that are integral to the diverse mechanisms underlying...
As the biomedical impact of small RNAs grows, so does the need to understand competing structural al...
Research in the last few decades has revealed the great capacity of the RNA molecule. RNA, which pre...
Here we introduce the Computational Recognition of Secondary Structure (CROSS) method to calculate t...
RNA plays key regulatory roles in diverse cellular processes, where its functionality often derives ...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Biochemistry and B...
Background RNA molecules fold into complex three-dimensional shapes, guided by the pattern of hydrog...
We present an integrative approach, SeqFold, that combines high-throughput RNA structure profiling d...
With increasing recognition of the roles RNA molecules and RNA/protein complexes play in an unexpect...
Höchsmann M, Voss B, Giegerich R. Pure multiple RNA secondary structure alignments: A progressive pr...
BackgroundStructure profiling experiments provide single-nucleotide information on RNA structure. Re...
RNA is a key biopolymer that mechanistically drives many cellular processes. As a single-stranded mo...
Motivation: RNAs fold into complex structures that are integral to the diverse mechanisms under-lyin...
Background: RNA molecules fold into complex three-dimensional shapes, guided by the pattern of hydro...
Abstract Background An increasing number of researchers have released novel RNA structure analysis a...
Motivation: RNAs fold into complex structures that are integral to the diverse mechanisms underlying...
As the biomedical impact of small RNAs grows, so does the need to understand competing structural al...
Research in the last few decades has revealed the great capacity of the RNA molecule. RNA, which pre...
Here we introduce the Computational Recognition of Secondary Structure (CROSS) method to calculate t...
RNA plays key regulatory roles in diverse cellular processes, where its functionality often derives ...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Biochemistry and B...
Background RNA molecules fold into complex three-dimensional shapes, guided by the pattern of hydrog...
We present an integrative approach, SeqFold, that combines high-throughput RNA structure profiling d...
With increasing recognition of the roles RNA molecules and RNA/protein complexes play in an unexpect...
Höchsmann M, Voss B, Giegerich R. Pure multiple RNA secondary structure alignments: A progressive pr...