Absorption at 450 nm was measured with the microplate reader SPECTRA Fluor (TECAN, Crailsheim, Germany). Detection of PorMs at the surface of mycobacteria by means of quantitative microwell immunoassays 40 ml of mycobacterial culture was harvested at OD600 of 0.8, washed with PBS-T and the pellet was resuspended in 1 ml PBS-T. 200 μl aliquots were then incubated for 30 min on ice with 1 μl of antiserum (pAK MspA#813); for detection of background pre-immune serum
was given to the samples. Afterwards 1 ml PBS-T was given to each sample; mycobacteria were harvested by centrifugation and washed once with PBS-T. Pellets were resuspended in 100 μl of PBS-T, 1 μl of the secondary Peroxidase-conjugated AffiniPure F (ab’) 2 Fragment Goat Anti-Rabbit IgG (H+L) (Jackson Immuno Research) was added to each sample and bacilli were incubated on ice for 30 min. After addition of check details 1 ml PBS-T, mycobacteria were pelleted by centrifugation and were washed once with PBS-T. Pellets were then resuspended in 500 μl of PBS-T, and 100 μl of dilutions thereof were transferred to wells of a RGFP966 chemical structure Nunc-Immuno
Polysorp Module (Nalgene Nunc International). After addition of 100 μl SureBlue™ TMB Microwell Peroxidase Substrate Entospletinib mw (KPL) and stopping the reaction by addition of 50 μl 1 M HCl, the reaction was detected by the reader SPECTRAFluor (TECAN). Complementation of the porin-deficient mutant strain M. smegmatis ML10 with porM1 and porM2 The ability of porM1 and porM2 to complement the growth defect of M. smegmatis ML10 (ΔmspA; ΔmspC) [4] was examined by electroporation with the plasmids pSRa102, pSRa104, pSSa100 (Table 4) as well as the control pMV306. 750 ng of each plasmid was electroporated
into M. smegmatis ML10 as described in Sharbati-Tehrani et al. [13]. After electroporation the cells were diluted and plated onto Mycobacteria 7H11 agar supplemented with kanamycin (25 Rho μg/ml) for the assessment of growth after four days and for the quantification of growth by cfu counting during four days. Table 4 Plasmids used in this work. Plasmids Characteristics Reference pIV2 cloning vector with an origin of replication functional in Enterobacteriacea and a kanamycin resistance gene [39] pLitmus38 cloning vector with the origin of replication from pUC, an ampicillin resitance gene and the lacZ’ gene for blue/white selection New England Biolabs pMV306 cloning vector replicating in E. coli with the kanamycin resistance gene aph from transposon Tn903 and the gene for the integrase and the attP site of phage L5 for integration into the mycobacterial genome [40] pMV261 Mycobacterium/E. coli shuttle vector with the kanamycin resistance gene aph from transposon Tn903 and the promoter from the hsp60 gene from M. tuberculosis [40] pSHKLx1 Mycobacterium/E.