Intrinsically unstructured proteins: re-assessing the protein structure-function paradigm.

A member of a specific binding pair (sbp) is identified by expressing DNA encoding a genetically diverse population of such sbp members in recombinant host cells in which the sbp members are displayed in functional form at the surface of a secreted recombinant genetic display package (rgdp) containing DNA encoding the sbp member or a polypeptide component thereof, by virtue of the sbp member or a polypeptide component thereof being expressed as a fusion with a capsid component of the rgdp. The displayed sbps may be selected by affinity with a complementary sbp member, and the DNA recovered from selected rgdps for expression of the selected sbp members. Antibody sbp members may be thus obtained, with the different chains thereof expressed, one fused to the capsid component and the other in free form for association with the fusion partner polypeptide. A phagemid may be used as an expression vector, with said capsid fusion helping to package the phagemid DNA. Using this method libraries of DNA encoding respective chains of such multimeric sbp members may be combined, thereby obtaining a much greater genetic diversity in the sbp members than could easily be obtained by conventional methods.

Methods for producing members of specific binding pairs

Regulatory Sequences Involved in the Promotion and Termination of RNA Transcription

To by-pass hybridoma technology and animal immunization, we are trying to build antibodies in bacteria by mimicking features of immune selection. Recently we used fd phage to display antibody fragments fused to a minor coat protein, allowing enrichment of phage with antigen. Using a random combinatorial library of the rearranged heavy (VH) and kappa (V kappa) light chains from mice immune to the hapten 2-phenyloxazol-5-one (phOx), we have now displayed diverse libraries of antibody fragments on the surface of fd phage. After a single pass over a hapten affinity column, fd phage with a range of phOx binding activities were detected, at least one with high affinity (dissociation constant, Kd = 10(-8) M). A second pass enriched for the strong binders at the expense of the weak. The binders were encoded by V genes similar to those found in anti-phOx hybridomas but in promiscuous combinations (where the same V gene is found with several different partners). By combining a promiscuous VH or V kappa gene with diverse repertoires of partners to create hierarchical libraries, we elicited many more pairings with strong binding activities. Phage display offers new ways of making antibodies from V-gene libraries, altering V-domain pairings and selecting for antibodies with good affinities.

Making antibody fragments using phage display libraries

When a chimeric gene encoding a ubiquitin-beta-galactosidase fusion protein is expressed in the yeast Saccharomyces cerevisiae, ubiquitin is cleaved off the nascent fusion protein, yielding a deubiquitinated beta-galactosidase (beta gal). With one exception, this cleavage takes place regardless of the nature of the amino acid residue of beta gal at the ubiquitin-beta gal junction, thereby making it possible to expose different residues at the amino-termini of the otherwise identical beta gal proteins. The beta gal proteins thus designed have strikingly different half-lives in vivo, from more than 20 hours to less than 3 minutes, depending on the nature of the amino acid at the amino-terminus of beta gal. The set of individual amino acids can thus be ordered with respect to the half-lives that they confer on beta gal when present at its amino-terminus (the "N-end rule"). The currently known amino-terminal residues in long-lived, noncompartmentalized intracellular proteins from both prokaryotes and eukaryotes belong exclusively to the stabilizing class as predicted by the N-end rule. The function of the previously described posttranslational addition of single amino acids to protein amino-termini may also be accounted for by the N-end rule. Thus the recognition of an amino-terminal residue in a protein may mediate both the metabolic stability of the protein and the potential for regulation of its stability.

https://science.sciencemag.org/content/sci/234/4773/179.full.pdf

In Vivo Half-Life of a Protein is a Function of its Amino-Terminal Residue

https://www.cell.com/trends/microbiology/pdf/S0966-842X(07)00240-5.pdf

Pili in Gram-positive bacteria: assembly, involvement in colonization and biofilm development

https://www.cell.com/cell/pdf/0092-8674(89)90882-9.pdf

Sequence-specific recognition of RNA hairpins by bacteriophage antiterminators requires a conserved arginine-rich motif.

Polarity suppressor mutants that are conditional lethal for growth have been isolated in E. coli K12. The mutations map between the ilv and cya loci of the E. coli chromosome. Rho factor isolated from one of these ts mutants does not show transcription termination activity at any temperature tested; however, it is found to be temperature sensitive for its poly(C)-dependent ATPase activity. Unlike the previously known polarity suppressor mutants (suA and psu), the rho mutation suppresses all types of polarity. Other interesting properties of these mutants include ultraviolet sensitivity, recombination deficiency, and decreased ability to lysogenize temperate phages lambda and P1. Our results suggest that rho has an essential function in the growth and normal physiology of cells. The rho(ts) mutant allows the growth of phage lambda defective in the N gene. This result supports the model that N gene product prevents transcription termination by antagonizing rho activity.

https://www.pnas.org/content/pnas/73/6/1959.full.pdf

Isolation and characterization of conditional lethal mutants of Escherichia coli defective in transcription termination factor rho.

The GreA and GreB transcript cleavage factors of Escherichia coli suppress elongation arrest and may have a proofreading role in transcription. With the use of E. coli greA-greB- mutant, RNA polymerase is demonstrated to possess substantial intrinsic transcript cleavage activity. Mildly alkaline pH mimics the effect of the Gre proteins by inducing transcript cleavage in ternary complexes and antagonizing elongation arrest through a cleavage-and-restart reaction. Thus, transcript cleavage constitutes the second enzymological activity of RNA polymerase along with polymerization/pyrophosphorolysis of RNA, whereas the Gre proteins merely enhance this intrinsic property.

https://www.pnas.org/content/pnas/92/10/4596.full.pdf

Asis Das

Papers

Pili in Gram-positive bacteria: assembly, involvement in colonization and biofilm development

Sequence-specific recognition of RNA hairpins by bacteriophage antiterminators requires a conserved arginine-rich motif.

Isolation and characterization of conditional lethal mutants of Escherichia coli defective in transcription termination factor rho.

Intrinsic transcript cleavage activity of RNA polymerase

Transcription antitermination by bacteriophage lambda N gene product