Structural and transcriptional analyses of a purine nucleotide-binding protein from Pyrococcus furiosus: a component of a novel, membrane-bound multiprotein complex unique to this hyperthermophilic archaeon.

The open-reading frame PF0895 in the genome of the hyperthermophilic archaeon, Pyrococcus furiosus, encodes a 206-residue protein (M(R )23,152). The structure of the recombinant protein was solved by single isomorphous replacement with anomalous scattering (SIRAS) using a mercury derivative. It has been refined to 1.70 A with a crystallographic R and R(free )values of 19.7% and 22.3%, respectively. The PF0895 structure is similar to those of the ATP binding cassettes observed in the ABC transporter family. However, bioinformatics and molecular analyses indicate that PF0895 is not part of the expected five-gene operon that encodes a typical prokaryotic solute-binding ABC transporter. Rather, transcriptional profiling data show that PF0895 is part of a novel four-gene operon (PF0895-PF0896-PF0897-PF0897.1) where only PF0895 has homologs in other organisms. Interestingly, from genome analysis, P. furiosus itself contains a second version of this complex, encoded by PF1090-PF1093. From the structural studies we can only conclude that one of the subunits of this novel membrane complex, PF0895, and its homolog PF1090, likely bind a purine nucleotide. PF0895 is therefore predicted to be part of a membrane-bound multiprotein complex unrelated to ABC transporters that is so far unique to P. furiosus. It appears to play a role in the stress response, as its expression is down regulated when the organism is subjected to cold-shock, where cells are transferred from 95 degrees C, near the optimal growth temperature, to 72 degrees C, near the minimal growth temperature. The related PF1090-containing operon is unaffected by cold-shock and is independently regulated.

Structure of the hypothetical protein PF0899 from Pyrococcus furiosus at 1.85 A resolution.

The hypothetical protein PF0899 is a 95-residue peptide from the hyperthermophilic archaeon Pyrococcus furiosus that represents a gene family with six members. P. furiosus ORF PF0899 has been cloned, expressed and crystallized and its structure has been determined by the Southeast Collaboratory for Structural Genomics (http://www.secsg.org). The structure was solved using the SCA2Structure pipeline from multiple data sets and has been refined to 1.85 A against the highest resolution data set collected (a presumed gold derivative), with a crystallographic R factor of 21.0% and R(free) of 24.0%. The refined structure shows some structural similarity to a wedge-shaped domain observed in the structure of the major capsid protein from bacteriophage HK97, suggesting that PF0899 may be a structural protein.

Optimization of a mouse recombinant antibody fragment for efficient production from Escherichia coli.

A mutagenized mouse recombinant antibody fragment (rFab) that recognized HIV capsid protein was isolated from Escherichia coli at a level of 12 mg per liter of culture using standard shake flask methods. This is one of the highest yields of a modified antibody fragment obtained using non-fermentor-based methods. Recombinant Fab was isolated directly from the culture medium, which lacked complex materials such as tryptone and yeast extract. Fab isolated from the periplasm was not as homogeneous as that isolated directly from the culture medium. Optimization of the culture medium using recently developed media, the use of E. coli cell lines that contained rare tRNA codons, and mutagenesis of the Fab to improve the stability of the Fab were important factors in producing high-levels of the Fab. An isolation protocol easily adaptable to automation using a thiophilic-sepharose column followed by metal-chelate chromatography and the introduction of a non-traditional metal binding site for metal-chelate purification that bypasses the conventional hexahistidine tag cleavage step (to prevent the purification tag from interfering with crystallization) are additional features of this approach to produce a highly homogenous preparation of rFab. The resulting rFab binds to its antigen, p24, equivalent in character to the monoclonal from which the rFab was originally derived.

Generation of a phagemid mouse recombinant antibody fragment library by multisite-directed mutagenesis.

A nonimmune phagemid recombinant antibody fragment (rFab) library was generated with a nominal diversity of 1.16 x 10(7) using the QuikChange Multi Site-Directed Mutagenesis kit. Two degenerate primers spanning the third complementarity-determining region (CDR) loops of the antibody fragment light and heavy chain were mutated such that eight or nine amino acids were randomly changed per CDR loop. Seven proteins were used to evaluate the library quality. Protein-specific rFab antibodies were selected after three panning cycles. From 12% to 64% of the randomly selected colonies produced positive ELISA signals to the phagemid rFabs. Multisite-directed mutagenesis allowed a diverse rFab library to be rapidly constructed while retaining the structural framework of a Fab that had been optimized for production in Escherichia coli.