Klinik und Genetik des Joubert-Syndroms

Joubert syndrome generally represents an autosomal recessive and rarely X-linked disorder characterized by hypotonia, an irregular breathing pattern, abnormal eye movements, ataxia, developmental delay and a complex mid-hindbrain malformation causing the molar tooth sign on magnetic resonance imaging (MRI). Many patients have additional features, with nephronophthisis, retinal dystrophy, coloboma and hepatic fibrosis representing the most frequent features. Due to its clinical variability and overlap with other syndromes, the term “Joubert syndrome and related disorders” (JSRD) was proposed. To date 10 genes are known to cause JSRD. The encoded proteins are localized to cilia, linking JSRD to other human ciliopathies.     

Differential protein composition of bovine whey: a comparison of whey from healthy animals and from those with clinical mastitis

During clinical mastitis in dairy cows, the quantity of milk produced decreases and the composition of the milk is altered. As the severity of inflammation associated with the disease increases, the chemical composition of milk approaches that of blood as a consequence of increased permeability of the blood mammary barrier, or de novo intramammary synthesis, as has been suggested for mammary associated serum amyloid A3. A better understanding of these events may provide new approaches for the diagnosis and treatment of mastitis. The objective of this study was to document the changes in the protein composition of milk during clinical mastitis using a proteomic approach, with the objective of identifying new diagnostic markers of mastitis. Whey from dairy cows with clinical mastitis was compared to whey from healthy animals by two-dimensional gel electrophoresis (2-DE) with colloidal Coomassie staining and matrix-assisted desorption/ionization mass spectrometry. Increases in the concentrations of proteins of blood serum origin, including serotransferrin and albumin, were identified in mastitic whey compared to normal whey, while concentrations of the major whey proteins alpha-lactalbumin and beta-lactoglobulin were reduced in mastitic whey. Mass spectrometry subsequently confirmed the location of albumin, alpha-lactalbumin and beta-lactoglobulin on the 2-DE gels at M(r)/pI of 69 294/5.8, 14 200/4.5 and 19 883/4.9 respectively.     

Molekulare Karyotypisierung in der klinischen Diagnostik

The term “molecular karyotyping” refers to the genome-wide analysis of copy number variations using arrays that cover the genome with genomic markers with varying density. Currently the main application is the investigation of patients with otherwise unexplained mental retardation and multiple congenital anomalies. Studies of such patients who remained without etiological diagnosis after conventional karyotyping, subtelomeric screening, and targeted molecular–cytogenetic studies for well-known microdeletion syndromes revealed chromosomal microaberrations in about 10% of cases and allowed the delineation of several new microdeletion and microduplication syndromes. Nevertheless, because of the large number of copy number polymorphisms, interpretation of unique findings needs thorough consideration.     

Nichtinvasive molekulargenetische Methoden in der pränatalen Diagnostik

Work on the development of noninvasive prenatal tests to avoid risk to the fetus in traditional amniocentesis or chorion villus biopsy has been ongoing for many years. Until recently, most approaches were extremely expensive and limited only to selected applications, thus they failed to develop beyond a “proof-of-principle” status. This has changed radically as a result of the introduction of new sequencing methods, since initial studies have shown that fetal aneuploidies from maternal plasma DNA can be identified correctly. In addition, these techniques make it possible to establish even the mutation status of the fetus. While on the one hand this offers completely new options in prenatal diagnosis, progress of this kind is associated with significant ethical challenges on the other. This overview article presents the development of these new methods.     

Genetik und Klinik der Hämophilie A und B

Haemophilia A and B are caused by various mutations in the factor VIII (FVIII) and factor IX (FIX) genes, respectively. The clinical course of the disease is variable, dependent on the severity of the molecular defect. Nowadays, haemophilia patients can excellently be treated by plasma-derived or recombinant clotting factor concentrates. Thus, bleeding and its consequences can be almost completely prevented with nearly normal quality of life and life expectancy. The most severe complication of this treatment is the formation of antibodies (inhibitors) against the substituted clotting factor. The risk of inhibitor formation correlates significantly with specific mutation types that preclude endogenous factor VIII/IX protein synthesis and can be as high as 20–50%. The information on the expected clinical course is at present the most important indication for FVIII/IX gene analysis. Knowledge of the underlying FVIII/IX gene mutation further allows a reliable and fast carrier diagnosis in female relatives of patients with haemophilia.     

Die Genetik der bipolaren Störung

With a life-time prevalence of about 0.5–1.5%, bipolar (manic depressive) disorder represents a common psychiatric disease. Family, twin, and adoption studies have consistently shown that genetic factors contribute to disease development. Genome-wide linkage studies have detected chromosomal regions that are very likely to harbor predisposing genes. Meta-analyses suggest, however, that the genetic contribution of the individual loci must be relatively small which could be one reason for the difficulties in identifying the genes responsible. Very recently, genome-wide association analyses, investigating hundreds of thousands of single nucleotide polymorphisms (SNPs) in phenotypically well-characterized patient and control cohorts, promise a major breakthrough in search of disease-associated genes.     

Evaluation of a novel chemical sensor system to detect clinical mastitis in bovine milk

Automatic detection of clinical mastitis is an essential part of high performance and robotic milking. Currently available technology (conductivity monitoring) is unable to achieve acceptable specificity or sensitivity of detection of clinical mastitis or other clinical diseases. Arrays of sensors with high cross-sensitivity have been successfully applied for recognition and quantitative analysis of other multicomponent liquids. An experiment was conducted to determine whether a multisensor system ("electronic tongue") based on an array of chemical sensors and suitable data processing could be used to discriminate between milk secretions from infected and healthy glands. Measurements were made with a multisensor system of milk samples from two different farms in two experiments. A total of 67 samples of milk from both mastitic and healthy glands were in two sets. It was demonstrated that the multisensor system could distinguish between control and clinically mastitic milk samples (p=0.05). The sensitivity and specificity of the sensor system (93 and 96% correspondingly) showed an improvement over conductivity (56 and 82% correspondingly). The multisensor system offers a novel method of improving mastitis detection.     

Expression in Escherichia coli, purification, refolding and antifungal activity of an osmotin from Solanum nigrum

Background

The large-scale production of G-protein coupled receptors (GPCRs) for functional and structural studies remains a challenge. Recent successes have been made in the expression of a range of GPCRs using Pichia pastoris as an expression host. P. pastoris has a number of advantages over other expression systems including ability to post-translationally modify expressed proteins, relative low cost for production and ability to grow to very high cell densities. Several previous studies have described the expression of GPCRs in P. pastoris using shaker flasks, which allow culturing of small volumes (500 ml) with moderate cell densities (OD600 ~15). The use of bioreactors, which allow straightforward culturing of large volumes, together with optimal control of growth parameters including pH and dissolved oxygen to maximise cell densities and expression of the target receptors, are an attractive alternative. The aim of this study was to compare the levels of expression of the human Adenosine 2A receptor (A_2AR) in P. pastoris under control of a methanol-inducible promoter in both flask and bioreactor cultures.

Results

Bioreactor cultures yielded an approximately five times increase in cell density (OD600 ~75) compared to flask cultures prior to induction and a doubling in functional expression level per mg of membrane protein, representing a significant optimisation. Furthermore, analysis of a C-terminally truncated A_2AR, terminating at residue V334 yielded the highest levels (200 pmol/mg) so far reported for expression of this receptor in P. pastoris. This truncated form of the receptor was also revealed to be resistant to C-terminal degradation in contrast to the WT A_2AR, and therefore more suitable for further functional and structural studies.

Conclusion

Large-scale expression of the A_2AR in P. pastoris bioreactor cultures results in significant increases in functional expression compared to traditional flask cultures.