The position

of each primer used in this study is shown

The position

of each primer used in this study is shown. (B) Scheme of the gplH deletion Entinostat in vitro cassette-delivery suicide vector used for construction of Ms ΔgplH. The gplH deletion leaves behind a gene remnant coding for only the first 13 (black print) and last 4 (white print) amino acids of GplH. This gene remnant in ΔgplHc is flanked by ~1 kb of downstream and upstream WT sequence for homologous recombination with the chromosome. (C) Agarose gel electrophoresis showing PCR-based confirmation of the gplH deletion in Ms ΔgplH. Lanes: 1, Ms WT (2,239-bp amplicon expected with primers pepOF and pepOR); 2, Ms ΔgplH (2,068-bp amplicon expected with primers pepOF and pepOR); 3, Ms WT (278-bp amplicon expected with primers pepF and pepR); 4, Ms ΔgplH (101-bp amplicon expected with primers pepF and pepR); L, DNA ladder marker. The gplH deletion was engineered using the BAY 80-6946 manufacturer gplH deletion cassette-delivery suicide vector p2NIL-GOALc-ΔgplH c(~16 kb, Figure 4B) in a homologous recombination- Selleckchem GF120918 and counter selection-based approach that replaced gplH by a 17-codon gene remnant cloned into the vector. The deletion in Ms ΔgplH encompassed 59 central amino acids of the predicted MbtH-like protein encoded by gplH (GplH, MSMEG_0399; 76 amino acids, Figure 3A). The deletion was verified by PCR using primer pairs that produced amplicons of different sizes depending on whether the genomic DNA used as PCR template was

wild type (WT) or carried the gene deletion (Figure 4C). The successful engineering of Ms ΔgplH set the stage for probing the involvement of gplH in GPL production. The gene gplH is essential for GPL production We investigated the effect of the gplH deletion in Ms ΔgplH on GPL production using TLC and MS analyses. In addition, a control strain for genetic complementation analysis was constructed (Ms ΔgplH + pCP0-gplH), and the ability of this strain and that of

Ms WT controls to produce GPLs was investigated. Representative results from the TLC analysis are shown in Figure 5. The analysis Casein kinase 1 of lipid extracts from the parental Ms WT strain, or Ms WT bearing the empty pCP0 vector, revealed the expected production of GPLs in these WT controls. Conversely, analysis of lipid extracts from Ms ΔgplH did not reveal detectable amounts of GPLs. Transformation of Ms ΔgplH with pCP0-gplH (a pCP0-based plasmid expressing gplH) rendered the strain Ms ΔgplH + pCP0-gplH, for which TLC analysis demonstrated that production of GPLs was restored to levels comparable to those seen in the WT controls. In contrast, Ms ΔgplH retained its GPL deficient phenotype after transformation with empty pCP0 vector (strain Ms ΔgplH + pCP0). The results of our complementation analysis rule out the possibility that the GPL deficient phenotype observed in Ms ΔgplH is due to a polar effect of the gplH deletion on downstream genes required for GPL production (i.e., mps1 and mps2; Figure 2). Figure 5 Deletion of gplH leads to GPL deficiency.

Comments are closed.