An analysis of insertions and deletions (indels) occurring in a databank of multiple sequence alignments based on protein tertiary structure is reported. Indels prefer to be short (1 to 5 residues). The average intervening sequence length between them versus the percentage of residue identity in pairwise alignments shows an exponential behaviour, suggesting a stochastic process such that nearly every loop in an ancestral structure is a possible target for indels during evolution. The results also suggest a limit to the average size of indels accommodated by protein structures. The preferred indel conformations are reverse turn and coil as are the preferred conformations at the indel edges (N- and C-terminal sides). Interruptions in helices ...
Background: Insertions and deletions of DNA segments (indels) are together with substitutions the ma...
Background: Insertions/deletions (indels) in protein sequences are useful as drug targets, protein s...
<p><b>Copyright information:</b></p><p>Taken from "Insertions and the emergence of novel protein str...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
Abstract Background Insertions and deletions (indels) represent a common type of sequence variations...
Abstract: Nucleotide insertions and deletions (indels) are responsible for gaps in the sequence alig...
Nucleotide insertion and deletion (indel) events, together with substitutions, represent the major m...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Proteins evolve through point mutations as well as by insertions and deletions (indels). During the ...
In the process of protein evolution, sequence variations within protein families can cause changes i...
Background: In the process of protein evolution, sequence variations within protein families can cau...
BACKGROUND: In the process of protein evolution, sequence variations within protein families can cau...
Background: Insertions and deletions of DNA segments (indels) are together with substitutions the ma...
Protein sequence alignment has become a widely used method in the study of newly sequenced proteins....
Background. In a previous study, we demonstrated that some essential proteins from pathogenic orga...
Background: Insertions and deletions of DNA segments (indels) are together with substitutions the ma...
Background: Insertions/deletions (indels) in protein sequences are useful as drug targets, protein s...
<p><b>Copyright information:</b></p><p>Taken from "Insertions and the emergence of novel protein str...
To understand how protein segments are inserted and deleted during divergent evolution, a set of pai...
Abstract Background Insertions and deletions (indels) represent a common type of sequence variations...
Abstract: Nucleotide insertions and deletions (indels) are responsible for gaps in the sequence alig...
Nucleotide insertion and deletion (indel) events, together with substitutions, represent the major m...
Comparison of sequences that have descended from a common ancestor based on an explicit stochastic m...
Proteins evolve through point mutations as well as by insertions and deletions (indels). During the ...
In the process of protein evolution, sequence variations within protein families can cause changes i...
Background: In the process of protein evolution, sequence variations within protein families can cau...
BACKGROUND: In the process of protein evolution, sequence variations within protein families can cau...
Background: Insertions and deletions of DNA segments (indels) are together with substitutions the ma...
Protein sequence alignment has become a widely used method in the study of newly sequenced proteins....
Background. In a previous study, we demonstrated that some essential proteins from pathogenic orga...
Background: Insertions and deletions of DNA segments (indels) are together with substitutions the ma...
Background: Insertions/deletions (indels) in protein sequences are useful as drug targets, protein s...
<p><b>Copyright information:</b></p><p>Taken from "Insertions and the emergence of novel protein str...