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901.
Celine Chery Alain Hehn Nadir Mrabet Abderrahim Oussalah Elise Jeannesson Cyril Besseau Jean-Marc Alberto Isabelle Gross Thomas Josse Philippe Gérard Rosa Maria Guéant-Rodriguez Jean-Noel Freund Jean Devignes Frédérique Bourgaud Laurent Peyrin-Biroulet François Feillet Jean-Louis Guéant 《Biochimie》2013
Several genome-wide association studies (GWAS) have identified a strong association between serum vitamin B12 and fucosyltransferase 2 (FUT2), a gene associated with susceptibility to Helicobacter pylori infection. Hazra et al. conducted a meta-analysis of three GWAS and found three additional loci in MUT, CUBN and TCN1. Other GWAS conducted in Italy and China confirmed the association for FUT2 gene. Alpha-2-fucosyltransferase (FUT2) catalyzes fucose addition to form H-type antigens in exocrine secretions. FUT2 non-secretor variant produces no secretion of H-type antigens and is associated with high-plasma vitamin B12 levels. This association was explained by the influence of FUT2 on H. pylori, which is a risk factor of gastritis, a main cause of vitamin B12 impaired absorption. However, we recently showed that H. pylori serology had no influence on FUT2 association with vitamin B12, in a large sample population, suggesting the involvement of an alternative mechanism. GIF is another gene associated with plasma levels of vitamin B12 and gastric intrinsic factor (GIF) is a fucosylated protein needed for B12 absorption. Inherited GIF deficiency produces B12 deficiency unrelated with gastritis. We report 2 families with heterozygous GIF mutation, 290T>C, M97T, with decreased binding affinity of GIF for vitamin B12 and one family with heterozygous GIF mutation 435_437delGAA, K145_N146delinsN and no B12 binding activity of mutated GIF. All cases with vitamin B12 deficit carried the FUT2 rs601338 secretor variant. Ulex europeus binding to GIF was influenced by FUT2 genotypes and GIF concentration was lower, in gastric juice from control subjects with the secretor genotype. GIF290C allele was reported in 5 European cases and no Africans among 1282 ambulatory subjects and was associated with low plasma vitamin B12 and anaemia in the single case bearing the FUT2 secretor variant. We concluded that FUT2 secretor variant worsens B12 status in cases with heterozygous GIF mutations by impairing GIF secretion, independently from H. pylori-related gastritis. 相似文献
902.
903.
Alan S. Hazell Samantha Faim Guilherme Wertheimer Vinicius R. Silva Cleiton S. Marques 《Neurochemistry international》2013
Thiamine (vitamin B1) deficiency, the underlying cause of Wernicke–Korsakoff syndrome, is associated with the development of focal neuronal loss in vulnerable areas of the brain. Although the actual mechanism(s) that lead to the selective histological lesions characteristic of this disorder remain unresolved, oxidative stress has been shown to play a major role in its pathophysiology. In this review, the multifactorial influence of oxidative stress on a variety of processes known to take part in the development of structural lesions in TD including excitotoxicity, neuroinflammation, blood–brain barrier integrity, mitochondrial integrity, apoptosis, nucleic acid function, and neural stem cells will be discussed, and therapeutic strategies undertaken for treating neurodegeneration examined which may have an impact on the future treatment of this important vitamin deficiency. 相似文献
904.
[目的]研究嗜水气单胞菌HS01的偶氮染料还原脱色特性.[方法]建立HS01/偶氮染料/电子供体序批式厌氧反应体系,研究Fe(Ⅲ)/腐殖质还原菌HS01以偶氮染料为电子受体的厌氧呼吸特性及影响因素;并构建HS01/偶氮染料/电子供体/铁氧化物体系,探讨铁氧化物对HS01偶氮还原的影响.[结果]HS01可将金橙Ⅰ迅速还原,菌体增殖;柠檬酸、丙三醇、蔗糖和葡萄糖体系中,16h金橙Ⅰ的脱色率分别达87%、85%、88%、90%;不同pH和金橙Ⅰ初始浓度条件下的脱色率不同;在反应体系中加入α-FeOOH,脱色率从90%增加至95%,Fe(Ⅱ)生成量与无染料对照体系相当.[结论]HS01能以葡萄糖为电子供体,金橙Ⅰ为唯一电子受体,进行厌氧呼吸;蔗糖、柠檬酸、丙三醇也可作为有效的电子供体,脱色率依次递减;甲酸、乙酸、乳酸、乙醇及丙酸不能作为HS01厌氧呼吸的电子供体.金橙Ⅰ脱色的最佳pH范围为6.0-8.0;高浓度(2.0 mmol/L)金橙Ⅰ负荷下,HS01仍保持高脱色率(>85%).在HS01/α-FeOOH/金橙Ⅰ体系中,异化铁还原作用与偶氮呼吸作用同时发生,异化铁还原能促进偶氮脱色,而脱色对Fe(Ⅲ)还原没有明显影响.这可为铁/腐殖质还原菌在环境修复和废水处理等领域的应用提供研究积累. 相似文献
905.
Paola Marcolongo Rosella Fulceri Alessandra Gamberucci Ibolya Czegle Gabor Banhegyi Angelo Benedetti 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013
Background
The endoplasmic reticulum enzyme glucose-6-phosphatase catalyzes the hydrolysis of glucose-6-phosphate to glucose and inorganic phosphate. The enzyme is a part of a multicomponent system that includes several integral membrane proteins; the catalytic subunit (G6PC) and transporters for glucose-6-phosphate, inorganic phosphate and glucose. The G6PC gene family presently includes three members, termed as G6PC, G6PC2, and G6PC3. Although the three isoforms show a moderate amino acid sequence homology, their membrane topology and catalytic site are very similar. The isoforms are expressed differently in various tissues. Mutations in all three genes have been reported to be associated with human diseases.Scope of review
The present review outlines the biochemical features of the G6PC gene family products, the regulation of their expression, their role in the human pathology and the possibilities for pharmacological interventions.Major conclusions
G6PCs emerge as integrators of extra- and intracellular glucose homeostasis. Beside the well known key role in blood glucose homeostasis, the members of the G6PC family seem to play a role as sensors of intracellular glucose and of intraluminal glucose/glucose-6-phosphate in the endoplasmic reticulum.General significance
Since mutations in the three G6PC genes can be linked to human pathophysiological conditions, the better understanding of their functioning in connection with genetic alterations, altered expression and tissue distribution has an eminent importance. 相似文献906.
Drosophila Hrp38, a homolog of human hnRNP A1, has been shown to regulate splicing, but its function can be modified by poly(ADP-ribosyl)ation. Notwithstanding such findings, our understanding of the roles of poly(ADP-ribosyl)ated Hrp38 on development is limited. Here, we have demonstrated that Hrp38 is essential for fly eye development based on a rough-eye phenotype with disorganized ommatidia observed in adult escapers of the hrp38 mutant. We also observed that poly(ADP-ribose) glycohydrolase (Parg) loss-of-function, which caused increased Hrp38 poly(ADP-ribosyl)ation, also resulted in the rough-eye phenotype with disrupted ommatidial lattice and reduced number of photoreceptor cells. In addition, ectopic expression of DE-cadherin, which is required for retinal morphogenesis, fully rescued the rough-eye phenotype of the hrp38 mutant. Similarly, Parg mutant eye clones had decreased expression level of DE-cadherin with orientation defects, which is reminiscent of DE-cadherin mutant eye phenotype. Therefore, our results suggest that Hrp38 poly(ADP-ribosyl)ation controls eye pattern formation via regulation of DE-cadherin expression, a finding which has implications for understanding the pathogenic mechanisms of Hrp38-related Fragile X syndrome and PARP1-related retinal degeneration diseases. 相似文献
907.
908.
Marohnic CC Huber Iii WJ Patrick Connick J Reed JR McCammon K Panda SP Martásek P Backes WL Masters BS 《Archives of biochemistry and biophysics》2011,513(1):42-50
Genetic variations in POR, encoding NADPH-cytochrome P450 oxidoreductase (CYPOR), can diminish the function of numerous cytochromes P450, and also have the potential to block degradation of heme by heme oxygenase-1 (HO-1). Purified full-length human CYPOR, HO-1, and biliverdin reductase were reconstituted in lipid vesicles and assayed for NADPH-dependent conversion of heme to bilirubin. Naturally-occurring human CYPOR variants queried were: WT, A115V, Y181D, P228L, M263V, A287P, R457H, Y459H, and V492E. All CYPOR variants exhibited decreased bilirubin production relative to WT, with a lower apparent affinity of the CYPOR–HO-1 complex than WT. Addition of FMN or FAD partially restored the activities of Y181D, Y459H, and V492E. When mixed with WT CYPOR, only the Y181D CYPOR variant inhibited heme degradation by sequestering HO-1, whereas Y459H and V492E were unable to inhibit HO-1 activity suggesting that CYPOR variants might have differential binding affinities with redox partners. Titrating the CYPOR–HO-1 complex revealed that the optimal CYPOR:HO-1 ratio for activity was 1:2, lending evidence in support of productive HO-1 oligomerization, with higher ratios of CYPOR:HO-1 showing decreased activity. In conclusion, human POR mutations, shown to impact P450 activities, also result in varying degrees of diminished HO-1 activity, which may further complicate CYPOR deficiency. 相似文献
909.
Ascenzi P Cao Y Tundo GR Coletta M Fanali G Fasano M 《Biochemical and biophysical research communications》2011,(1):185-189
Ferrous human serum heme–albumin (HSA–heme–Fe(II)) displays globin-like properties. Here, the effect of ibuprofen and warfarin on kinetics of HSA–heme–Fe(II) nitrosylation is reported. Values of the second-order rate constant for HSA–heme–Fe(II) nitrosylation (kon) decrease from 6.3 × 106 M−1 s−1 in the absence of drugs, to 4.1 × 105 M−1 s−1 and 4.8 × 105 M−1 s−1, in the presence of saturating amounts of ibuprofen and warfarin, respectively, at pH 7.0 and 20.0 °C. From the dependence of kon on the drug concentration, values of the dissociation equilibrium constant for ibuprofen and warfarin binding to HSA–heme–Fe(II) (i.e., K = 3.2 × 10−3 M and 2.6 × 10−4 M, respectively) were determined. The observed allosteric effects could indeed reflect ibuprofen and warfarin binding to the regulatory fatty acid binding site FA2, which brings about an alteration of heme coordination, slowing down HSA–heme–Fe(II) nitrosylation. Present data highlight the allosteric modulation of HSA–heme–Fe(II) reactivity by heterotropic effectors. 相似文献
910.
Iana Meitlis Eric J. Allenspach Bradly M. Bauman Isabelle Q. Phan Gina Dabbah Erica G. Schmitt Nathan D. Camp Troy R. Torgerson Deborah A. Nickerson Michael J. Bamshad David Hagin Christopher R. Luthers Jeffrey R. Stinson Jessica Gray Ingrid Lundgren Joseph A. Church Manish J. Butte Mike B. Jordan Seema S. Aceves Daniella M. Schwartz Joshua D. Milner Susan Schuval Suzanne Skoda-Smith Megan A. Cooper Lea M. Starita David J. Rawlings Andrew L. Snow Richard G. James 《American journal of human genetics》2020,107(6):1029