Barbara Pohl scite author profile

The human KOC gene which is highly expressed in cancer shows typical structural features of an RNA binding protein. We analyzed the temporal and spatial expression pattern of KOC in mouse embryos at different gestational ages. The expression of KOC seems to be ubiquitous at early stages. During advanced gestation highest KOC expression occurs in the gut, pancreas, kidney, and in the developing brain. The expression pattern of KOC was compared to its Xenopus homologue Vg1-RBP during frog development. Similar expression was found in these organs suggesting an important functional role of the homologous proteins in embryonic development.

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Molecular characterization of group A streptococcal (GAS) oligopeptide permease (Opp) and its effect on cysteine protease production

Podbielski¹,

Pohl²,

Woischnik³

et al. 1996

Molecular Microbiology

115

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Bacterial oligopeptide permeases are membrane-associated complexes of five proteins belonging to the ABC-transporter family, which have been found to be involved in obtaining nutrients, cell-wall metabolism, competence, and adherence to host cells. A lambda library of the strain CS101 group A streptococcal (GAS) genome was used to sequence 10,192 bp containing the five genes oppA to oppF of the GAS opp operon. The deduced amino acid sequences exhibited 50-84% homology to pneumococcal AmiA to AmiF sequences. The operon organization of the five genes was confirmed by transcriptional analysis and an additional shorter oppA transcript was detected. Insertional inactivation was used to create serotype M49 strains which did not express either the oppA gene or the ATPase genes, oppD and oppF. The mutation in oppA confirmed that the additional shorter oppA transcript originated from the opp operon and was probably due to an intra-operon transcription terminator site located downstream of oppA. While growth kinetics, binding of serum proteins, and attachment to eukaryotic cells were unaffected, the oppD/F mutants showed reduced production of the cysteine protease, SpeB, and a change in the pattern of secreted proteins. Thus, the GAS opp operon appears to contribute to both protease production and export/processing of secreted proteins.

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What is the size of the group A streptococcal vir regulon? The Mga regulator affects expression of secreted and surface virulence factors

Podbielski

Woischnik

Pohl

et al. 1996

Medical Microbiology and Immunology

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The vir regulon of group A streptococci (GAS) organizes the expression of several bacterial virulence factors under the control of the Mga regulator. Previously, the genes encoding the Mga regulator (mga), M and M-related proteins (emm, mrp, enn) and C5a peptidase (scpA) were reported to be clustered on the streptococcal genome in a core vir regulon. In the present study, the genomic regions of a serotype M49 strain upstream of mga and downstream of scpA were sequenced to assess the boundaries of the vir regulon. In the upstream region, an operon was identified that may be potentially involved in substrate transport and is independent from Mga regulation. In the downstream region, another Mga-controlled, scpA-cotranscribed gene was detected. This gene termed orfX encoded a 385-amino acid (aa) potential surface protein of unknown function. No binding of serum proteins to a recombinant ORFX was detectable and phagocytosis resistance of an orfX mutant remained unchanged. Downstream of orfX, another Mga-independent gene determined the 3' end of the core vir regulon. Utilizing the M49 wild type, a mga- mutant and comparative Northern blot hybridization, genes encoding the capsule synthesis machinery, streptokinase and streptolysin O, as well as erythrogenic toxin A and DNase C were found to be Mga independent. In contrast, expression of the genes encoding the cysteine protease SpeB, streptococcin A and the oligopeptide permease was reduced in the mga- mutant. This indicated that in addition to the core vir regulon, Mga directly or indirectly controls a number of genes dispersed throughout the GAS genome.

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Overexpression of the transcriptional repressor FoxD3 prevents neural crest formation in Xenopus embryos

Pohl

Knöchel

2001

Mechanisms of Development

103

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Xenopus FoxD3 (XFD-6) is an intron-less gene initially expressed within the Spemann organizer and later in premigratory neural crest cells. Based upon sequence and expression pattern comparisons, it represents the Xenopus orthologue to zebrafish fkd6, chicken CWH-3 and mammalian HFH-2 (genesis). Early expression of FoxD3 is activated by the Wnt-pathway and inhibited by BMP signalling. Ectopic overexpression of FoxD3 leads to an enlargement of the neural plate concomitant with a failure in neural crest formation, loss of anterior structures, lack of closure of the neural tube and severe defects in somitogenesis. Phenotypic variation is accompanied by down-regulation of neural crest markers, including Xslug, Xtwist and Xcadherin-11. FoxD3 also inhibits its own expression, thereby acting in a negative autoregulatory loop. By injections of VP16 and engrailed fusions we can demonstrate that FoxD3 acts as a negative transcriptional regulator; this repressive function strictly requires the presence of the winged helix domain. Transplantation experiments show that FoxD3 overexpressing cells from the prospective neural crest do neither differentiate nor migrate.

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Barbara Pohl

Novel series of plasmid vectors for gene inactivation and expression analysis in group A streptococci (GAS)

Expression of the highly conserved RNA binding protein KOC in embryogenesis

Molecular characterization of group A streptococcal (GAS) oligopeptide permease (Opp) and its effect on cysteine protease production

What is the size of the group A streptococcal vir regulon? The Mga regulator affects expression of secreted and surface virulence factors

Overexpression of the transcriptional repressor FoxD3 prevents neural crest formation in Xenopus embryos

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