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21.
Komen JC Distelmaier F Koopman WJ Wanders RJ Smeitink J Willems PH 《Cellular and molecular life sciences : CMLS》2007,64(24):3271-3281
Refsum disease is a rare, inherited neurodegenerative disorder characterized by accumulation of the dietary branched-chain
fatty acid phytanic acid in plasma and tissues caused by a defect in the alphaoxidation pathway. The accumulation of phytanic
acid is believed to be the main pathophysiological cause of the disease. However, the exact mechanism(s) by which phytanic
acid exerts its toxicity have not been resolved. In this study, the effect of phytanic acid on mitochondrial respiration was
investigated. The results show that in digitonin-permeabilized fibroblasts, phytanic acid decreases ATP synthesis, whereas
substrate oxidation per se is not affected. Importantly, studies in intact fibroblasts revealed that phytanic acid decreases both the mitochondrial
membrane potential and NAD(P)H autofluorescence. Taken together, the results described here show that unesterified phytanic
acid exerts its toxic effect mainly through its protonophoric action, at least in human skin fibroblasts.
Received 4 August 2007; received after revision 26 September 2007; accepted 10 October 2007
J. C. Komen, F. Distelmaier: These authors contributed equally to this work. 相似文献
22.
Modulation of protein biophysical properties by chemical glycosylation: biochemical insights and biomedical implications 总被引:2,自引:0,他引:2
Solá RJ Rodríguez-Martínez JA Griebenow K 《Cellular and molecular life sciences : CMLS》2007,64(16):2133-2152
Glycosylation constitutes one of the most important posttranslational modifications employed by biological systems to modulate
protein biophysical properties. Due to the direct biochemical and biomedical implications of achieving control over protein
stability and function by chemical means, there has been great interest in recent years towards the development of chemical
strategies for protein glycosylation. Since current knowledge about glycoprotein biophysics has been mainly derived from the
study of naturally glycosylated proteins, chemical glycosylation provides novel insights into its mechanistic understanding
by affording control over glycosylation parameters. This review presents a survey of the effects that natural and chemical
glycosylation have on the fundamental biophysical properties of proteins (structure, dynamics, stability, and function). This
is complemented by a mechanistic discussion of how glycans achieve such effects and discussion of the implications of employing
chemical glycosylation as a tool to exert control over protein biophysical properties within biochemical and biomedical applications.
Received 15 December 2006; received after revision 28 March 2007; accepted 25 April 2007 相似文献
23.
24.
Regulation of insulin receptor function 总被引:1,自引:0,他引:1
Youngren JF 《Cellular and molecular life sciences : CMLS》2007,64(7-8):873-891
Resistance to the biological actions of insulin contributes to the development of type 2 diabetes and risk of cardiovascular
disease. A reduced biological response to insulin by tissues results from an impairment in the cascade of phosphorylation
events within cells that regulate the activity of enzymes comprising the insulin signaling pathway. In most models of insulin
resistance, there is evidence that this decrement in insulin signaling begins with either the activation or substrate kinase
activity of the insulin receptor (IR), which is the only component of the pathway that is unique to insulin action. Activation
of the IR can be impaired by post-translational modifications of the protein involving serine phosphorylation, or by binding
to inhibiting proteins such as PC-1 or members of the SOCS or Grb protein families. The impact of these processes on the conformational
changes and phosphorylation events required for full signaling activity, as well as the role of these mechanisms in human
disease, is reviewed in this article.
Received 3 August 2006; received after revision 1 December 2006; accepted 8 January 2007 相似文献
25.
A genome-wide association study for celiac disease identifies risk variants in the region harboring IL2 and IL21 总被引:14,自引:0,他引:14
van Heel DA Franke L Hunt KA Gwilliam R Zhernakova A Inouye M Wapenaar MC Barnardo MC Bethel G Holmes GK Feighery C Jewell D Kelleher D Kumar P Travis S Walters JR Sanders DS Howdle P Swift J Playford RJ McLaren WM Mearin ML Mulder CJ McManus R McGinnis R Cardon LR Deloukas P Wijmenga C 《Nature genetics》2007,39(7):827-829
We tested 310,605 SNPs for association in 778 individuals with celiac disease and 1,422 controls. Outside the HLA region, the most significant finding (rs13119723; P = 2.0 x 10(-7)) was in the KIAA1109-TENR-IL2-IL21 linkage disequilibrium block. We independently confirmed association in two further collections (strongest association at rs6822844, 24 kb 5' of IL21; meta-analysis P = 1.3 x 10(-14), odds ratio = 0.63), suggesting that genetic variation in this region predisposes to celiac disease. 相似文献
26.
The study of candidate genes over the past three decades has yielded notable successes in common-disease genetics. During
this time, however, interpretation of genetic association studies has been hampered by the use of clinical cohorts of inadequate
power and insufficient information on genetic variation in candidate genes. The unavailability of highthroughput and low-cost
genotyping technologies has also limited the scope of complex-disease genetic studies. More recently, however, the sequencing
and characterization of variation within the human genome has revolutionized genetic studies and enabled full genome-wide
scans for genes associated with disease. The identification of disease-associated (causative) genes has illuminated disease
mechanisms. The translation of this knowledge into direct clinical benefit in diagnosis, prognosis and therapy for an individual’s
disease still remains a challenge.
Received 11 September 2006; received after revision 17 December 2006; accepted 18 January 2007 相似文献
27.
Duhem’s concept of ‘good sense’ is central to his philosophy of science, given that it is what allows scientists to decide between competing theories. Scientists must use good sense and have intellectual and moral virtues in order to be neutral arbiters of scientific theories, especially when choosing between empirically adequate theories. I discuss the parallels in Duhem’s views to those of virtue epistemologists, who understand justified belief as that arrived at by a cognitive agent with intellectual and moral virtues, showing how consideration of Duhem as a virtue epistemologist offers insights into his views, as well as providing possible answers to some puzzles about virtue epistemology. The extent to which Duhem holds that the intellectual and moral virtues of the scientist determine scientific knowledge has not been generally noticed. 相似文献
28.
Lindahl E Nyman U Melles E Sigmundsson K Ståhlberg M Wahren J Obrink B Shafqat J Joseph B Jörnvall H 《Cellular and molecular life sciences : CMLS》2007,64(4):479-486
Proinsulin C-peptide is known to bind specifically to cell membranes and to exert intracellular effects, but whether it is
internalized in target cells is unknown. In this study, using confocal microscopy and immunostained or rhodamine-labeled peptide,
we show that C-peptide is internalized and localized to the cytosol of Swiss 3T3 and HEK-293 cells. In addition, transport
into nuclei was found using the labeled peptide. The internalization was followed at 37°C for up to 1 h, and was reduced at
4°C and after preincubation with pertussis toxin. Hence, it is concluded to occur via an energy-dependent, pertussis toxin-sensitive
mechanism and without detectable degradation within the experimental time course. Surface plasmon resonance measurements demonstrated
binding of HEK-293 cell extract components to C-peptide, and subsequent elution of bound material revealed the components
to be intracellular proteins. The identification of C-peptide cellular internalization, intracellular binding proteins, absence
of rapid subsequent C-peptide degradation and apparent nuclear internalization support a maintained activity similar to that
of an intracrine peptide hormone. Hence, the data suggest the possibility of one further C-peptide site of action.
Received 31 October 2006; received after revision 27 December 2006; accepted 30 December 2006 相似文献
29.
The RecQ family of DNA helicases is highly conserved throughout evolution and plays an important role in the maintenance of
genomic stability in all organisms. Mutations in three of the five known family members in humans, BLM, WRN and RECQL4, give rise to disorders that are characterized by predisposition to cancer and premature aging, emphasizing the importance
of studying the RecQ proteins and their cellular activities. Interestingly, three autosomal recessive disorders have been
associated with mutations in the RECQL4 gene: Rothmund-Thomson, RAPADILINO, and Baller-Gerold syndromes, thus making RECQL4 unique within the RecQ family of DNA
helicases. To date, however, the molecular function of RECQL4 and the possible cellular pathways in which it is involved remain
poorly understood. Here, we present an overview of recent findings in connection with RECQL4 and try to highlight different
directions the field could head, helping to clarify the role of RECQL4 in preventing tumorigenesis and maintenance of genome
integrity in humans.
Received 31 October 2006; received after revision 4 January 2007; accepted 5 February 2007 相似文献
30.
Numerous microRNAs (miRNAs) have been discovered in the genomes of higher eukaryotes, and functional studies indicate that they are important during development. However, little is known concerning the function of individual miRNAs. We approached this problem in zebrafish by combining identification of miRNA expression, functional analyses and experimental validation of potential targets. We show that miR-214 is expressed during early segmentation stages in somites and that varying its expression alters the expression of genes regulated by Hedgehog signaling. Inhibition of miR-214 results in a reduction or loss of slow-muscle cell types. We show that su(fu) mRNA, encoding a negative regulator of Hedgehog signaling, is targeted by miR-214. Through regulation of su(fu), miR-214 enables precise specification of muscle cell types by sharpening cellular responses to Hedgehog. 相似文献