Bioinformatic Analysis Reveals Conservation of Intrinsic Disorder in the Linker Sequences of Prokaryotic Dual-family Immunophilin Chaperones

Abstract: The two classical immunophilin families, found essentially in all living cells, are: cyclophilin (CYN) and FK506-binding protein (FKBP). We previously reported a novel class of immunophilins that are natural chimera of these two, which we named dual-family immunophilin (DFI). The DFIs were found in either of two conformations: CYN-linker-FKBP (CFBP) or FKBP-3TPR-CYN (FCBP). While the 3TPR domain can serve as a flexible linker between the FKBP and CYN modules in the FCBP-type DFI, the linker sequences in the CF… Show more

“…Bioinformatic analysis showed that all CFBP linkers, in spite of their sequence dissimilarity, possess intrinsic disorder (ID), a hallmark of flexible protein linkers [16], as shown later with Flavobacterium johnsoniae CFBP (Figure 3). Thus, both classes of DFPPIs contain flexible linkers, serving as connector between the two classical PPI/immunophilin domains, which offered the first indication that the two domains may function as independent functional modules, able to freely bend against each other [14,16].…”

“…In analogy to the single family PPIases, it is safe to assume that the DFPPIs play a major role to facilitate folding of their client proteins, which also remain unidentified. Expanding on our previous suggestions [13,14,16], I propose a model (Figure 4), in which the bifunctional DFPPI is located, perhaps together with translating polyribosomes (polysomes), at specialized cellular sites that is tentatively named "translational co-folding centers" or TCCs.…”

“…All FCBPs contain three nonidentical repeats of TPR, referred as 3TPR [14]. In sharp contrast, the CFBPs do not contain TPR, but instead uses short peptide sequences, averaging ~50 amino acids in length, to serve as a linker between the CYN and FKBP domains [16].…”

“…collectively refer to these CFBP and FCBP sequences as DFPPIs, and summarize our current knowledge on these proteins along with a broader view of their potential function. More specialized reviews of DFPPI subsets and recent bioinformatic analysis of their structure can be found elsewhere [14][15][16].…”

“…(A) Intrinsic disorder in the linker peptide region (the central pink area), connecting the CYN and FKBP domains in FjCFBP39 (GenBank WP_012024434.1), computed with PrDOS, as previously described[16]. The red horizontal line is the baseline for disorder cutoff, set at 10% falsepositive rate.…”

Dual-Family Peptidylprolyl Isomerases (Immunophilins) of Select Monocellular Organisms

“…Bioinformatic analysis showed that all CFBP linkers, in spite of their sequence dissimilarity, possess intrinsic disorder (ID), a hallmark of flexible protein linkers [16], as shown later with Flavobacterium johnsoniae CFBP (Figure 3). Thus, both classes of DFPPIs contain flexible linkers, serving as connector between the two classical PPI/immunophilin domains, which offered the first indication that the two domains may function as independent functional modules, able to freely bend against each other [14,16].…”

“…In analogy to the single family PPIases, it is safe to assume that the DFPPIs play a major role to facilitate folding of their client proteins, which also remain unidentified. Expanding on our previous suggestions [13,14,16], I propose a model (Figure 4), in which the bifunctional DFPPI is located, perhaps together with translating polyribosomes (polysomes), at specialized cellular sites that is tentatively named "translational co-folding centers" or TCCs.…”

“…All FCBPs contain three nonidentical repeats of TPR, referred as 3TPR [14]. In sharp contrast, the CFBPs do not contain TPR, but instead uses short peptide sequences, averaging ~50 amino acids in length, to serve as a linker between the CYN and FKBP domains [16].…”

“…collectively refer to these CFBP and FCBP sequences as DFPPIs, and summarize our current knowledge on these proteins along with a broader view of their potential function. More specialized reviews of DFPPI subsets and recent bioinformatic analysis of their structure can be found elsewhere [14][15][16].…”

“…(A) Intrinsic disorder in the linker peptide region (the central pink area), connecting the CYN and FKBP domains in FjCFBP39 (GenBank WP_012024434.1), computed with PrDOS, as previously described[16]. The red horizontal line is the baseline for disorder cutoff, set at 10% falsepositive rate.…”

Dual-Family Peptidylprolyl Isomerases (Immunophilins) of Select Monocellular Organisms

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