pernatant was filtered using a 0.22 mm syringe filter and IgGs were purified and biotinylated with the reagents provided by Pierce Biotechnology, as previously described, and subsequently used for library screening. and the pellet was washed with PBS. Finally, the pellet was re-suspended 20032483 in 500 mL PBS. Preparation of outer membrane vesicles from M. catarrhalis Cells from a 1.5 L culture were harvested and washed with PBS. The cells were re-suspended in 50 mL EDTA buffer and incubated at 56uC for 30 min at 75 rpm agitation with glass beads. The culture was centrifuged twice, and the supernatant containing the membrane vesicles was ultracentrifuged. The pellet was washed with PBS and resuspended in 500 mL PBS. Construction of bacterial surface display libraries Bacterial surface display libraries were generated as previously described. Briefly, genomic DNA from M. catarrhalis BBH18 was fragmented by DNase I digest ) or sonication ). Blunt-ended DNA fragments of 50200 bp or 150 600 bp were ligated with the SmaI digested frame-selection vector pMAL4.31. pMAL4.31 containing 50150 bp or 150600 bp DNA fragments from M. catarrhalis was transformed into DH10B electrocompetent E. coli cells. Plasmid DNA was isolated from the pool of transformed clones, and the DNA inserts cloned into the platform vectors pMAL9.1 and pHIE14 for surface display. Generation of mouse immune serum against M. catarrhalis recombinant protein Msp22 Msp22 with a His-tag at the C-terminus and purchase Degarelix expressed without lipidation in E. coli was purified using IMAC columns and utilized for the generation of Msp22-specific immune serum in mice. Female NMRI mice 68 weeks of age were bled by tail vein puncture to generate pre-immune sera, and were immunized three times intraperitoneally with 50 mg recombinant antigen per immunization, using Complete Freunds Adjuvant or Incomplete Freunds Adjuvant as adjuvant. Terminal bleeds were collected via the orbital sinus. Sera were heat-inactivated at 56uC for 30 minutes. MACS screening MACS screening using bacterial surface display libraries was performed as described previously. Cloning, expression and purification of recombinant M. catarrhalis proteins in E. coli For recombinant expression of M. catarrhalis antigens, the PCR amplified gene or gene fragments to be expressed were cloned into pET28b+, a vector containing a kanamycin resistance cassette as well as a T7-RNA polymerase promoter. All proteins were expressed with N- or C-terminal His-tags without possible signal peptides. Protein expression was analyzed in small scale cultures, and protein solubility was determined based on centrifugation of lysed bacterial cultures and analysis of soluble and insoluble fractions. Western blot with anti-His-tag antibodies was performed to confirm the expression of the recombinant protein. Proteins were purified from 2 L E. coli BL21 cultures carrying the pET28b+ vector encoding the antigens. Soluble proteins were purified using an 24394186 IMAC column according to standard methods, insoluble proteins were purified by washing the inclusion bodies, solubilizing them in a buffer containing 6 M Guanidine hydrochloride, and subsequently applying them to an IMAC column. Bound proteins were eluted with 250 mM imidazole in denaturing buffer. Proteins were refolded by dilution with a buffer without GuHCl but containing L-Arginine as an inhibitor of protein aggregation. After renaturation, proteins were dialyzed against 50 mM Tris-HCl, 150 mM NaCl buffer at pH 8.0 and