No association of vitamin D metabolism-related polymorphisms and melanoma risk as well as melanoma prognosis: a case–control study

Melanoma is one of the most aggressive human cancers. The vitamin D system contributes to the pathogenesis and prognosis of malignancies including cutaneous melanoma. An expression of the vitamin D receptor (VDR) and an anti-proliferative effect of vitamin D in melanocytes and melanoma cells have been shown in vitro. Studies examining associations of polymorphisms in genes coding for vitamin D metabolism-related proteins (1α-hydroxylase [CYP27B1], 1,25(OH)2D-24hydroxylase [CYP24A1], vitamin D-binding protein [VDBP]) and cancer risk are scarce, especially with respect to melanoma. Mainly VDR polymorphisms regarding melanoma risk and prognosis were examined although other vitamin D metabolism-related genes may also be crucial. In our hospital-based case–control study including 305 melanoma patients and 370 healthy controls single nucleotide polymorphisms in the genes CYP27B1 (rs4646536), CYP24A1 (rs927650), VDBP (rs1155563, rs7041), and VDR (rs757343, rs731236, rs2107301, rs7975232) were analyzed for their association with melanoma risk and prognosis. Except VDR rs731236 and VDR rs2107301, the other six polymorphisms have not been analyzed regarding melanoma before. To further improve the prevention as well as the treatment of melanoma, it is important to identify further genetic markers for melanoma risk as well as prognosis in addition to the crude phenotypic, demographic, and environmental markers used in the clinic today. A panel of genetic risk markers could help to better identify individuals at risk for melanoma development or worse prognosis. We, however, found that none of the polymorphisms tested was associated with melanoma risk as well as prognosis in logistic and linear regression models in our study population

AlgR-binding sites within the algD promoter make up a set of inverted repeats separated by a large intervening segment of DNA.

Activation of algD by AlgR is essential for mucoidy, a virulence factor expressed by Pseudomonas aeruginosa in cystic fibrosis. Two AlgR-binding sites, RB1 and RB2, located far upstream from the algD mRNA start site, are essential for the high-level activity of algD. However, the removal of RB1 and RB2 does not completely abolish inducibility of algD in response to environmental signals. In this work, a third binding site for AlgR, termed RB3, near the algD mRNA start site was characterized. Deletion of RB3 abrogated both the AlgR-binding ability and the residual inducibility of the algD promoter. DNase I footprinting analysis of RB3 resulted in a protection pattern spanning nucleotides -50 to -30. Eight of 10 residues encompassing a continuous region of protection within RB3 (positions -45 to -36) matched in the inverted orientation the conserved core sequence (ACCGTTCGTC) of RB1 and RB2. Quantitative binding measurements of AlgR association with RB1, RB2, and RB3 indicated that AlgR had significantly lower affinity for RB3 than for RB1 and RB2, with differences in the free energy of binding of 1.05 and 0.93 kcal/mol (4.39 and 3.89 kJ/mmol), respectively. Altering the core of RB2 to match the core of RB3 significantly reduced AlgR binding. Conversely, changing the core of RB3 to perfectly match the core of RB2 (mutant site termed RB3*) improved AlgR binding, approximating the affinity of RB2. RB3*, in the absence of the far upstream sites, showed an increase in activity, approaching the levels observed with the full-size algD promoter. Changing 4 nucleotides in two different combinations within the core of RB3 abolished the binding of AlgR to this site and resulted in a significant reduction of promoter activity in the presence of the far upstream sites. Thus, (i) the core sequence is essential for AlgR binding; (ii) the three binding sites, RB1, RB2, and RB3, are organized as an uneven palindrome with symmetrical sequences separated by 341 and 417 bp; and (iii) all three sites participate in algD activation

Validating satellite derived and modelled sea-ice drift in the Laptev Sea with in situ measurements from the winter of 2007/2008

A correct representation of the ice movement in an Arctic sea-ice-ocean coupled model is essential for a realistic sea-ice and ocean simulation. The aim of this study is to validate the observational and simulated sea-ice drift for the Laptev Sea Shelf region with in situ measurements from the winter of 2007/08. Several satellite remote-sensing data sets are first compared to mooring measurements and afterwards to the sea-ice drift simulated by the coupled sea-ice-ocean model. The different satellite products have a correlation to the in situ data ranging from 0.56 to 0.86. The correlations of sea-ice direction or individual drift vector components between the in situ data and the observations are high, about 0.8. Similar correlations are achieved by the model simulations. The sea-ice drift speed derived from the model and from some satellite products have only moderate correlations of about 0.6 to the in situ record. The standard errors for the satellite products and model simulations drift components are similar to the errors of the satellite products in the central Arctic and are about 0.03 m/s. The fast-ice parameterization implementation in the model was also successfully tested for its influence on the sea-ice drift. In contrast to the satellite products, the model drift simulations have a full temporal and spatial coverage and results are reliable enough to use as sea-ice drift estimates on the Laptev Sea Shelf