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Family studies of the steroid 21-hydroxylase and coplement C4 genes define 11 haplotypes in classical congenital adrenal hyperplasia in The Netherlands (1992)

Koppens, P. F. J. ; Hoogenboezem, T. ; Halley, D. J. J. ; [et al.]

Springer

European journal of pediatrics 151 (1992), S. 885-892

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ISSN: 1432-1076

Keywords: Congenital adrenal hyperplasia ; Steroid 21-hydroxylase ; CYP21 ; Complement ; Haplotypes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Two steroid 21-hydroxylase genes are normally present within the human major histocompatibility complex near the genes encoding the fourth component of complement (C4A and C4B). Steroid 21-hydroxylase is encoded by the CYP21 gene, while the highly homologous CYP21P gene is a pseudogene. We studied steroid 21-hydroxylase and complement C4 haplotypes in 33 Dutch patients (29 families) suffering form classical congenital adrenal hyperplasia (CAH) and in their 80 family members, and also in 55 unrelated healthy controls, using 21-hydroxylase and complement C4 cDNA probes. Eleven different haplotypes, defined in terms of gene deletions, gene duplications, conversions of CYP21 to CYP21P, and “long” and “short” C4 genes, were found. In 23% of the patients' haplotypes, the CYP21 gene was deleted; in 12%, it was converted into a CYP21P pseudogene. In the remaining 65%, the defect was apparently caused by a mutation not detectable by this method. The most common haplotype (with one CYP21 and one CYP21P gene) was significantly more often observed in patients with simple virilizing CAH than in those with salt-losing CAH. Comparison of the 21-hydroxylase haplotypes found in CAH patients from several countries shows evidence for considerable genetic variation between the groups studied.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01954123

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Distinct SagA from Hospital-Associated Clade A1 Enterococcus faecium Strains Contributes to Biofilm Formation [Public and Environmental Health Microbiology] (2015)

Paganelli, F. L., de Been, M., Braat, J. C., Hoogenboezem, T., Vink, C., Bayjanov, J., Rogers, M. R. C., Huebner, J., Bonten, M. J. M., Willems, R. J. L., Leavis, H. L.

The American Society for Microbiology (ASM)

In: Applied and Environmental Microbiology

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Publication Date: 2015-09-05

Description: Enterococcus faecium is an important nosocomial pathogen causing biofilm-mediated infections. Elucidation of E. faecium biofilm pathogenesis is pivotal for the development of new strategies to treat these infections. In several bacteria, extracellular DNA (eDNA) and proteins act as matrix components contributing to biofilm development. In this study, we investigated biofilm formation capacity and the roles of eDNA and secreted proteins for 83 E. faecium strains with different phylogenetic origins that clustered in clade A1 and clade B. Although there was no significant difference in biofilm formation between E. faecium strains from these two clades, the addition of DNase I or proteinase K to biofilms demonstrated that eDNA is essential for biofilm formation in most E. faecium strains, whereas proteolysis impacted primarily biofilms of E. faecium clade A1 strains. Secreted antigen A (SagA) was the most abundant protein in biofilms from E. faecium clade A1 and B strains, although its localization differed between the two groups. sagA was present in all sequenced E. faecium strains, with a consistent difference in the repeat region between the clades, which correlated with the susceptibility of biofilms to proteinase K. This indicates an association between the SagA variable repeat profile and the localization and contribution of SagA in E. faecium biofilms.

Print ISSN: 0099-2240

Electronic ISSN: 1098-5336

Topics: Biology

Published by The American Society for Microbiology (ASM)

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