Abstract
Leucine rich repeats (LRRs) are present in over 100,000 proteins from viruses to eukaryotes. The LRRs are 20–30 residues long and occur in tandem. LRRs form parallel stacks of short β-strands and then assume a super helical arrangement called a solenoid structure. Individual LRRs are separated into highly conserved segment (HCS) with the consensus of LxxLxLxxNxL and variable segment (VS). Eight classes have been recognized. Bacterial LRRs are short and characterized by two prolines in the VS; the consensus is xxLPxLPxx with Nine residues (N-subtype) and xxLPxxLPxx with Ten residues (T-subtype). Bacterial LRRs are contained in type III secretion system effectors such as YopM, IpaH3/9.8, SspH1/2, and SlrP from bacteria. Some LRRs in decorin, fribromodulin, TLR8/9, and FLRT2/3 from vertebrate also contain the motifs. In order to understand structural features of bacterial LRRs, we performed both secondary structures assignments using four programs—DSSP-PPII, PROSS, SEGNO, and XTLSSTR—and HELFIT analyses (calculating helix axis, pitch, radius, residues per turn, and handedness), based on the atomic coordinates of their crystal structures. The N-subtype VS adopts a left handed polyproline II helix (PPII) with four, five or six residues and a type I β-turn at the C-terminal side. Thus, the N-subtype is characterized by a super secondary structure consisting of a PPII and a β-turn. In contrast, the T-subtype VS prefers two separate PPIIs with two or three and two residues. The HELFIT analysis indicates that the type I β-turn is a right handed helix. The HELFIT analysis determines three unit vectors of the helix axes of PPII (P), β-turn (B), and LRR domain (A). Three structural parameters using these three helix axes are suggested to characterize the super secondary structure and the LRR domain.
Highlights
Leucine rich repeats (LRRs) are unusually rich in leucine [1,2,3,4,5,6]
Bacterial LRR is characterized by two Leu Pro sequences in the variable segment (VS) parts; variable VS that lack one of the two conserved prolines is observed
The VS consensus is xxLPxLPxx, as expected, in which “x” positions at the N- and C-terminal sides are frequently occupied by relatively small residues such as Thr or Ser; while the central “x” position is rich in Glu
Summary
Leucine rich repeats (LRRs) are unusually rich in leucine [1,2,3,4,5,6]. The LRRs are composed of 20–30 residues stretches and repeat in tandem. LRRs have been reported in over 100,000 proteins from viruses to eukaryotes. LRR units are divided into a highly conserved segment (HCS) and a variable segment (VS) [1]. Eight classes of LRRs have been recognized [3]. Matsushima and Kretsinger recently proposed twenty-three types of LRRs [1]. Their grouping is based mainly on the difference of the VS parts. The eight classes are RI-like, cysteine containing (CC), SDS22-like, IRREKO, bacterial, plant specific, typical, and TpLRR
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