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isomethyleugenol and Diabetes Mellitus, Type 2

isomethyleugenol has been researched along with Diabetes Mellitus, Type 2 in 47 studies

Research

Studies (47)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	0 (0.00)	18.2507
2000's	8 (17.02)	29.6817
2010's	21 (44.68)	24.3611
2020's	18 (38.30)	2.80

Authors

Authors	Studies
Feng, Y; Li, W; Li, X; Mao, Z; Qu, C; Wang, C; Yu, F; Yu, S	1
Chen, WB; Deng, J; Jin, HJ; Liu, XJ; Wang, WT; Wu, ZH; Zhang, BF; Zhang, S; Zheng, XT	1
Araldi, E; Carreira, EM; Erni, R; Fischer, F; Grigolon, G; La Fortezza, M; Laube, B; Pöhlmann, D; Ristow, M; Stoffel, M; Thomas, C; Wu, JY; Zarse, K	1
Fan, W; Li, C; Li, Z; Liang, Z; Liu, F; Su, F; Zhang, L	1
Guo, C; Han, M; Hu, D; Hu, F; Huang, S; Li, Q; Li, Y; Liu, D; Qie, R; Qin, P; Tian, G; Wu, X; Zhang, M; Zhang, Y; Zhao, Y; Zhou, Q	1
Dong, C; Gong, Y; Guo, S; Jia, W; Jiang, Y; Wang, C; Zhang, S; Zhang, W; Zhou, M	1
Casas-Avila, L; Castro-Hernández, C; Cerón-Ramírez, X; Martínez-Ramírez, OC; Rubio-Lightbourn, J; Salazar-Piña, A; Torres-Romero, F	1
Feng, H; Fu, D; He, L; Huang, Y; Li, A; Li, J; Liu, Y; Zhao, H	1
Cai, Y; Chen, T; Deng, L; Fu, S; Li, C; Wang, M; Xie, K	1
An, M; Hoffman, BG; Luciani, DS; Lynn, FC; Maeshima, N; McDonald, CL; Pasula, DJ; Suresh, P; Vanderkruk, B	1
Chen, C; Hu, Y; Jiang, C; Wang, S	1
Gao, Y; Liu, X; Lou, Q; Lv, M; Xu, H; Yang, Y; Yin, F; Yin, Y; Zhang, M; Zhang, X; Zhang, Y; Zhang, Z	1
Li, SM; Ma, LL; Wang, BH; Xie, W; Xu, YQ	1
Bundy, AN; Claycombe-Larson, KG; Roemmich, JN	1
Faccin, L; Lapolla, A; Ragazzi, E; Sartore, G	1
Chen, YS; He, PP; Novák, P; Ouyang, XP; Yin, K; Yu, XH; Zhou, L	1
Ribatti, D	1
Ba, Y; Hou, X; Huang, H; Li, W; Li, X; Li, Z; Liu, L; Sun, R; Wang, C; Wang, L; Zhou, G	1
Broholm, C; Henriksen, TI; Nielsen, J; Pedersen, BK; Pedersen, M; Scheele, C; Uhlén, M; Väremo, L	1
Bridgeman, SC; Ellison, GC; Mamotte, CDS; Melton, PE; Newsholme, P	1
Campbell, S; Maw, HH; Taub, ME; Teitelbaum, AM; Zeng, X	1
Ackland, MJ; Ackland, ML; Asproloupos, D; Best, JD; Dunbar, JA; Ebeling, PR; Janus, ED; Judge, A; Michalczyk, AA	1
Allen, TJ; Cooper, ME; El-Osta, A; Jandeleit-Dahm, KAM; Thomas, MC; Watson, AMD	1
Shi, S; Zhao, L; Zheng, L	1
Ahmed, QU; Alhassan, AM; Arief Ichwan, SJ; Fakurazi, S; Hamidon, H; Hussein, NN; Latip, J; Mat So'ad, SZ; Sarian, MN; Taher, M	1
Alves-Wagner, AB; Correa-Giannella, ML; Esteves, JV; Giannella-Neto, D; Machado, UF; Okamoto, MM; Yonamine, CY	1
Abuşoğlu, S; Atalar, MN; Baldane, S; İpekçi, SH; Kebapcılar, L; Tok, O; Ünlü, A	1
Dawson, K; Eastridge, K; Gadberry, H; Kincaid, H; Lan, ZJ; Lei, L; Lei, Z; Li, X; Power, C; Power, R; Seale, O; Xiao, R; Yerramreddy, TR; Yiannikouris, A	1
Duan, H; Jiang, P; Li, M; Li, X; Ma, B; Ni, Z; Tu, P; Wang, H; Wu, R; Zhang, Y; Zhu, J	1
Guo, X; Ji, S; Ji, X; Wei, W	1
Lanting, L; Natarajan, R; Reddy, MA; Villeneuve, LM; Wang, M	1
Tseng, CH	1
Iwasaki, H	1
Anders, HJ; Eulberg, D; Gaikwad, AB; Klussmann, S; Kulkarni, O; Lichtnekert, J; Sayyed, SG; Tikoo, K	1
Anders, HJ; Gaikwad, AB; Lichtnekert, J; Sayyed, SG; Tikoo, K	1
Bhandare, R; Fox, A; Kaestner, KH; Le Lay, J; Liu, C; Naji, A; Schug, J; Smirnova, O	1
Boehnke, M; Boyle, AP; Chines, PS; Collins, FS; Crawford, GE; Erdos, MR; Furey, TS; Margulies, EH; Parker, SC; Pearson, DS; Scott, LJ; Sethupathy, P; Song, L; Stitzel, ML; Welch, R	1
Akan, P; Beck, S; Bell, CG; Deloukas, P; Down, TA; Finer, S; Frayling, TM; Hattersley, AT; Hitman, GA; Lindgren, CM; McCarthy, MI; Mill, J; Morison, IM; Pidsley, R; Prokopenko, I; Rakyan, VK; Stupka, E; Teschendorff, AE; Wilson, GA	1
Andreasen, M; Besenbacher, F; Bjerring, M; Christiansen, G; Dong, M; Jeppesen, M; Mittag, T; Nielsen, EH; Nielsen, JT; Nielsen, NC; Nielsen, SB; Otzen, DE; Skrydstrup, T; Zhang, S	1
Cao, J; Combs, GF; Jackson, MI; Uthus, E; Zeng, H	1
Basic, J; Cvetkovic, T; Djordjevic, G; Djordjevic, V; Ljubisavljevic, S; Pavlovic, D; Pavlovic, R; Stojanovic, I; Zabar, K	1
Bartáková, V; Bělobrádková, J; Jurajda, M; Kaňková, K; Klepárník, M; Krusová, D; Kuricová, K; Malúšková, D; Mužík, J; Olšovský, J; Pácal, L; Pavlík, T; Rehořová, J; Stěpánková, S; Svojanovský, J; Tanhäuserová, V; Tomandl, J	1
Drobná, Z; Harmon, AW; Patel, YM; Paul, DS; Styblo, M; Walton, FS	1
Coracina, A; Garibotto, G; Kiwanuka, E; Tessari, P; Valerio, A; Vedovato, M; Vettore, M; Zaramella, M	1
Gao, H; He, J; Liang, Y; Yi, L; Yuan, D; Zhou, H	1
Amato, B; Cipriano, P; Di Marino, L; Di Palma, R; Maffettone, A; Quarto, G; Riccardi, G; Rivellese, AA; Sacco, M	1
Mozaffari, M; Schaffer, SW	1

Reviews

6 review(s) available for isomethyleugenol and Diabetes Mellitus, Type 2

Article	Year
A bibliometric analysis of RNA methylation in diabetes mellitus and its complications from 2002 to 2022. Frontiers in endocrinology, 2022, Volume: 13 Topics: Bibliometrics; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Humans; Methylation; Retrospective Studies; RNA	2022
N6-Adenosine Methylation (m Journal of cardiovascular translational research, 2021, Volume: 14, Issue:5 Topics: Adenosine; Animals; Cardiovascular Diseases; Diabetes Mellitus, Type 2; Methylation; RNA, Messenger	2021
Epigenetics and Its Ethical Implications. Critical reviews in eukaryotic gene expression, 2021, Volume: 31, Issue:1 Topics: Diabetes Mellitus, Type 2; Epigenesis, Genetic; Gene Expression Regulation; Genetic Predisposition to Disease; Germ Cells; Histones; Humans; Methylation; Neoplasms; Neurodegenerative Diseases; Obesity; Phenotype	2021
Epigenetic effects of metformin: From molecular mechanisms to clinical implications. Diabetes, obesity & metabolism, 2018, Volume: 20, Issue:7 Topics: Acetylation; Animals; Anticarcinogenic Agents; Diabetes Complications; Diabetes Mellitus, Type 2; DNA Methylation; Epigenesis, Genetic; Gene Expression Regulation; Histones; Humans; Hypoglycemic Agents; Metformin; Methylation; MicroRNAs; Models, Biological; Neoplasms; Protein Processing, Post-Translational	2018
Metabolic Karma-The Atherogenic Legacy of Diabetes: The 2017 Edwin Bierman Award Lecture. Diabetes, 2018, Volume: 67, Issue:5 Topics: Animals; Atherosclerosis; Cardiovascular Diseases; Diabetes Mellitus, Type 1; Diabetes Mellitus, Type 2; Diabetic Angiopathies; Epigenesis, Genetic; Glycation End Products, Advanced; Histone Code; Humans; Hyperglycemia; Methylation; Oxidative Stress	2018
Regulatory Role of N Journal of cellular biochemistry, 2017, Volume: 118, Issue:9 Topics: Adenosine; Animals; Diabetes Mellitus, Type 2; Enzyme Inhibitors; Humans; Methylation; Neoplasms; Obesity; RNA Processing, Post-Transcriptional; RNA, Neoplasm	2017

Other Studies

41 other study(ies) available for isomethyleugenol and Diabetes Mellitus, Type 2

Article	Year
Vitamin D receptor methylation attenuates the association between physical activity and type 2 diabetes mellitus: A case-control study. Journal of diabetes, 2022, Volume: 14, Issue:2 Topics: Case-Control Studies; Cohort Studies; Diabetes Mellitus, Type 2; Exercise; Humans; Methylation; Receptors, Calcitriol; Vitamin D	2022
M Biological chemistry, 2022, 02-23, Volume: 403, Issue:3 Topics: Animals; Cell Movement; Cell Proliferation; Cells, Cultured; Diabetes Mellitus, Type 2; Hyperplasia; Insulins; Methylation; Mice; Muscle, Smooth, Vascular; RNA, Messenger	2022
Grainyhead 1 acts as a drug-inducible conserved transcriptional regulator linked to insulin signaling and lifespan. Nature communications, 2022, 01-10, Volume: 13, Issue:1 Topics: Animals; Animals, Genetically Modified; Blood Glucose; Caenorhabditis elegans; Caenorhabditis elegans Proteins; Class II Phosphatidylinositol 3-Kinases; Diabetes Mellitus, Type 2; Gene Expression Regulation; Humans; Insulin; Insulin Resistance; Insulin-Like Growth Factor I; Longevity; Methylation; Mice; Papaverine; Repressor Proteins; Signal Transduction; Transcription Factors; Vorinostat	2022
Macrophage M1 regulatory diabetic nephropathy is mediated by m6A methylation modification of lncRNA expression. Molecular immunology, 2022, Volume: 144 Topics: Alpha-Ketoglutarate-Dependent Dioxygenase FTO; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Female; Humans; Macrophages; Male; Methylation; RNA, Long Noncoding	2022
Integrated analysis of probability of type 2 diabetes mellitus with polymorphisms and methylation of SLC30A8 gene: a nested case-control study. Journal of human genetics, 2022, Volume: 67, Issue:11 Topics: Case-Control Studies; China; Cohort Studies; Diabetes Mellitus, Type 2; Genetic Predisposition to Disease; Genotype; Humans; Hypertension; Hypertriglyceridemia; Methylation; Polymorphism, Single Nucleotide; Probability; Zinc Transporter 8	2022
Effect of Inulin Intervention on Metabolic Control and Methylation of Nutrients, 2022, Dec-06, Volume: 14, Issue:23 Topics: Diabetes Mellitus, Type 2; Humans; Insulin; Insulin Receptor Substrate Proteins; Inulin; Methylation; Mexico	2022
Metformin regulates the effects of IR and IGF-1R methylation on mast cell activation and airway reactivity in diabetic rats with asthma through miR-152-3p/DNMT1 axis. Cell biology and toxicology, 2023, Volume: 39, Issue:4 Topics: Animals; Asthma; Diabetes Mellitus, Experimental; Diabetes Mellitus, Type 2; Mast Cells; Metformin; Methylation; MicroRNAs; Rats; Receptor, Insulin	2023
N6-methylation of RNA-bound adenosine regulator HNRNPC promotes vascular endothelial dysfunction in type 2 diabetes mellitus by activating the PSEN1-mediated Notch pathway. Diabetes research and clinical practice, 2023, Volume: 197 Topics: Adenosine; Animals; Diabetes Mellitus, Type 2; Glucose; Heterogeneous-Nuclear Ribonucleoprotein Group C; Human Umbilical Vein Endothelial Cells; Humans; Methylation; Mice; Presenilin-1; RNA; Vascular Diseases	2023
Methylation of histone H3 lysine 4 is required for maintenance of beta cell function in adult mice. Diabetologia, 2023, Volume: 66, Issue:6 Topics: Animals; Diabetes Mellitus, Type 2; Histone-Lysine N-Methyltransferase; Histones; Insulins; Lysine; Methylation; Mice	2023
Emerging trends in DNA and RNA methylation modifications in type 2 diabetes mellitus: a bibliometric and visual analysis from 1992 to 2022. Frontiers in endocrinology, 2023, Volume: 14 Topics: Bibliometrics; Diabetes Mellitus, Type 2; DNA; Humans; Methylation; Prospective Studies; RNA	2023
Association between arsenic (+3 oxidation state) methyltransferase gene polymorphisms and arsenic methylation capacity in rural residents of northern China: a cross-sectional study. Archives of toxicology, 2023, Volume: 97, Issue:11 Topics: Arsenic; Case-Control Studies; China; Cross-Sectional Studies; Diabetes Mellitus, Type 2; Humans; Methylation; Methyltransferases; Polymorphism, Single Nucleotide	2023
METTL3 inhibits hepatic insulin sensitivity via N6-methyladenosine modification of Fasn mRNA and promoting fatty acid metabolism. Biochemical and biophysical research communications, 2019, 10-08, Volume: 518, Issue:1 Topics: Adenosine; Animals; Dependovirus; Diabetes Mellitus, Type 2; Disease Models, Animal; Fatty Acid Synthase, Type I; Fatty Acids; Gene Deletion; Glucose; Hepatocytes; Homeostasis; Humans; Insulin Resistance; Liver; Methylation; Methyltransferases; Mice, Inbred C57BL; Mice, Knockout; Obesity; RNA, Messenger	2019
Paternal high-fat diet and exercise regulate sperm miRNA and histone methylation to modify placental inflammation, nutrient transporter mRNA expression and fetal weight in a sex-dependent manner. The Journal of nutritional biochemistry, 2020, Volume: 81 Topics: Animals; Body Weight; Diabetes Mellitus, Type 2; Diet, High-Fat; Fathers; Female; Fetal Weight; Histones; Inflammation; Interleukin-1beta; Male; Methylation; Mice; Mice, Inbred C57BL; MicroRNAs; Motor Activity; Obesity; Physical Conditioning, Animal; Placenta; Pregnancy; Spermatozoa; Tumor Necrosis Factor-alpha	2020
A role of glycation and methylation for SARS-CoV-2 infection in diabetes? Medical hypotheses, 2020, Volume: 144 Topics: Adipose Tissue; Angiotensin-Converting Enzyme 2; Biomarkers; Comorbidity; COVID-19; Diabetes Complications; Diabetes Mellitus, Type 2; DNA Methylation; Glycosylation; Humans; Immunoglobulin G; Insulin Resistance; Methylation; Multicenter Studies as Topic; Neoplasms; Protein Domains; Renin-Angiotensin System; Retrospective Studies; SARS-CoV-2; Up-Regulation	2020
Frontiers in public health, 2021, Volume: 9 Topics: China; Diabetes Mellitus, Type 2; Estrogen Receptor alpha; Farmers; Female; Humans; Lipid Metabolism; Male; Methylation; Promoter Regions, Genetic	2021
Type 2 diabetes and obesity induce similar transcriptional reprogramming in human myocytes. Genome medicine, 2017, 05-25, Volume: 9, Issue:1 Topics: Adult; Computational Biology; Diabetes Mellitus, Type 2; Epigenesis, Genetic; Female; Histones; Humans; Inflammation; Male; Methylation; Middle Aged; Muscle Development; Muscle Fibers, Skeletal; Obesity; Sequence Analysis, RNA; Sphingolipids	2017
Drug metabolism and disposition: the biological fate of chemicals, 2018, Volume: 46, Issue:6 Topics: 11-beta-Hydroxysteroid Dehydrogenase Type 1; Adolescent; Adult; Aged; Aged, 80 and over; Biotransformation; Child; Child, Preschool; Cytosol; Diabetes Mellitus, Type 2; Female; Humans; Kidney; Liver; Male; Methylation; Methyltransferases; Microsomes, Liver; Middle Aged; Recombinant Proteins; Sulfhydryl Compounds; Young Adult	2018
Transient epigenomic changes during pregnancy and early postpartum in women with and without type 2 diabetes. Epigenomics, 2018, 04-01, Volume: 10, Issue:4 Topics: Adult; Diabetes Mellitus, Type 2; Epigenesis, Genetic; Female; Histone Code; Histones; Humans; Methylation; Middle Aged; Pilot Projects; Postpartum Period; Pregnancy; Pregnancy in Diabetics	2018
NSD2 is downregulated in T2DM and promotes β cell proliferation and insulin secretion through the transcriptionally regulation of PDX1. Molecular medicine reports, 2018, Volume: 18, Issue:3 Topics: Adult; Cell Line; Cell Proliferation; Cell Survival; Diabetes Mellitus, Type 2; Female; Gene Expression Regulation; Histone-Lysine N-Methyltransferase; Histones; Homeodomain Proteins; Humans; Insulin; Insulin Secretion; Insulin-Secreting Cells; Male; Methylation; Middle Aged; Repressor Proteins; Trans-Activators; Transcription, Genetic; Young Adult	2018
Methylation and Acetylation Enhanced the Antidiabetic Activity of Some Selected Flavonoids: In Vitro, Molecular Modelling and Structure Activity Relationship-Based Study. Biomolecules, 2018, 11-15, Volume: 8, Issue:4 Topics: 3T3-L1 Cells; Acetylation; Adipocytes; Adipogenesis; Adipokines; Animals; Catalytic Domain; CCAAT-Enhancer-Binding Proteins; Cell Survival; Diabetes Mellitus, Type 2; Flavonoids; Glucose; Glucose Transporter Type 1; Glucose Transporter Type 4; Hypoglycemic Agents; Insulin Secretion; Lipid Droplets; Methylation; Mice; Models, Molecular; Molecular Docking Simulation; Rats; Structure-Activity Relationship	2018
Diabetes induces tri-methylation at lysine 9 of histone 3 at Slc2a4 gene in skeletal muscle: A new target to improve glycemic control. Molecular and cellular endocrinology, 2019, 02-05, Volume: 481 Topics: Animals; Diabetes Mellitus, Type 1; Diabetes Mellitus, Type 2; Disease Models, Animal; Epigenesis, Genetic; Glucose Transporter Type 4; Histones; Humans; Insulin; Lysine; Male; Methylation; Mice; Muscle, Skeletal; Promoter Regions, Genetic; Rats; Resveratrol	2019
Assessment of serum galectin-3, methylated arginine and Hs-CRP levels in type 2 diabetes and prediabetes. Life sciences, 2019, Aug-15, Volume: 231 Topics: Adult; Arginine; Biomarkers; Blood Glucose; Blood Proteins; C-Reactive Protein; Diabetes Mellitus, Type 2; Fasting; Female; Galectin 3; Galectins; Glucose Tolerance Test; Glycated Hemoglobin; Humans; Insulin Resistance; Male; Methylation; Middle Aged; Prediabetic State	2019
Non-peptidyl small molecule, adenosine, 5'-Se-methyl-5'-seleno-, 2',3'-diacetate, activates insulin receptor and attenuates hyperglycemia in type 2 diabetic Lepr Cellular and molecular life sciences : CMLS, 2020, Volume: 77, Issue:8 Topics: Adenosine; Animals; Diabetes Mellitus, Type 2; Glucose; Hep G2 Cells; Humans; Hyperglycemia; Hypoglycemic Agents; Insulin; Insulin Resistance; Male; Methylation; Mice; Mice, Inbred C57BL; Organoselenium Compounds; Receptor, Insulin	2020
Liver histone H3 methylation and acetylation may associate with type 2 diabetes development. Journal of physiology and biochemistry, 2015, Volume: 71, Issue:1 Topics: Animals; Blood Glucose; Diabetes Mellitus, Type 2; Exenatide; Glucose Transporter Type 2; Histones; Liver; Male; Methylation; Mice; Mice, Inbred C57BL; Peptides; Promoter Regions, Genetic; RNA, Messenger; Venoms	2015
Role of the lysine-specific demethylase 1 in the proinflammatory phenotype of vascular smooth muscle cells of diabetic mice. Circulation research, 2008, Sep-12, Volume: 103, Issue:6 Topics: Animals; Diabetes Mellitus, Type 2; Histone Demethylases; Histones; Humans; Inflammation Mediators; Lysine; Male; Methylation; Mice; Mice, Knockout; Mice, Mutant Strains; Muscle, Smooth, Vascular; Myocytes, Smooth Muscle; Oxidoreductases, N-Demethylating; Phenotype	2008
Arsenic exposure and diabetes mellitus in the United States. JAMA, 2008, Dec-17, Volume: 300, Issue:23 Topics: Arsenic; Arsenic Poisoning; Confounding Factors, Epidemiologic; Diabetes Mellitus, Type 2; Dietary Supplements; Environmental Exposure; Estrogen Replacement Therapy; Humans; Methylation; Risk Factors	2008
Impaired PRMT1 activity in the liver and pancreas of type 2 diabetic Goto-Kakizaki rats. Life sciences, 2009, Jul-17, Volume: 85, Issue:3-4 Topics: Animals; Arginine; Diabetes Mellitus, Type 2; Gene Deletion; Gene Expression; Gluconeogenesis; Insulin; Insulin Secretion; Insulin-Secreting Cells; Liver; Methylation; Pancreas; Protein-Arginine N-Methyltransferases; Rats; Rats, Mutant Strains; Rats, Wistar; RNA, Small Interfering	2009
Progressive glomerulosclerosis in type 2 diabetes is associated with renal histone H3K9 and H3K23 acetylation, H3K4 dimethylation and phosphorylation at serine 10. Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association, 2010, Volume: 25, Issue:6 Topics: Acetylation; Animals; Base Sequence; Chemokine CCL2; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Epigenesis, Genetic; Histones; Kidney; Male; Methylation; Mice; Mice, Inbred C57BL; Nephrectomy; Phosphorylation; Serine	2010
Renal failure increases cardiac histone h3 acetylation, dimethylation, and phosphorylation and the induction of cardiomyopathy-related genes in type 2 diabetes. The American journal of pathology, 2010, Volume: 176, Issue:3 Topics: Acetylation; Albuminuria; Animals; Cardiomyopathies; Diabetes Mellitus, Type 2; Epigenesis, Genetic; Gene Expression Regulation; Glomerular Filtration Rate; Histones; Hypertrophy; Male; Methylation; Mice; Mice, Inbred C57BL; Myocardium; Myocytes, Cardiac; Nephrectomy; Phosphorylation; Renal Insufficiency; RNA, Messenger	2010
Genome-wide analysis of histone modifications in human pancreatic islets. Genome research, 2010, Volume: 20, Issue:4 Topics: CpG Islands; Diabetes Mellitus, Type 2; Epigenesis, Genetic; Gene Expression Profiling; Genome-Wide Association Study; Histone Methyltransferases; Histone-Lysine N-Methyltransferase; Histones; Humans; Islets of Langerhans; Methylation; Polymorphism, Single Nucleotide; Promoter Regions, Genetic; Protein Processing, Post-Translational; Transcriptional Activation; Validation Studies as Topic	2010
Global epigenomic analysis of primary human pancreatic islets provides insights into type 2 diabetes susceptibility loci. Cell metabolism, 2010, Nov-03, Volume: 12, Issue:5 Topics: CCCTC-Binding Factor; Deoxyribonuclease I; Diabetes Mellitus, Type 2; Epigenomics; Genetic Loci; Genome-Wide Association Study; HeLa Cells; Histones; Humans; Islets of Langerhans; Lysine; Methylation; Promoter Regions, Genetic; Regulatory Sequences, Nucleic Acid; Repressor Proteins	2010
Integrated genetic and epigenetic analysis identifies haplotype-specific methylation in the FTO type 2 diabetes and obesity susceptibility locus. PloS one, 2010, Nov-18, Volume: 5, Issue:11 Topics: Adult; Algorithms; Animals; Base Sequence; Bayes Theorem; CpG Islands; Diabetes Mellitus, Type 2; DNA Methylation; Epigenomics; Evolution, Molecular; Female; Gene Expression Profiling; Gene Frequency; Genetic Predisposition to Disease; Genotype; Haplotypes; Histones; Humans; Methylation; Obesity; Oligonucleotide Array Sequence Analysis; Polymorphism, Single Nucleotide; Sequence Analysis, DNA	2010
Modulation of fibrillation of hIAPP core fragments by chemical modification of the peptide backbone. Biochimica et biophysica acta, 2012, Volume: 1824, Issue:2 Topics: Amyloid; Diabetes Mellitus, Type 2; Dipeptides; Humans; Hydrogen Bonding; Hydrophobic and Hydrophilic Interactions; Methylation; Microscopy, Atomic Force; Microscopy, Electron, Transmission; Oligopeptides; Peptide Fragments; Peptoids; Protein Structure, Secondary; Spectrum Analysis; X-Ray Diffraction	2012
S-adenosylmethionine-dependent protein methylation is required for expression of selenoprotein P and gluconeogenic enzymes in HepG2 human hepatocytes. The Journal of biological chemistry, 2012, Oct-19, Volume: 287, Issue:43 Topics: Adenosylhomocysteinase; Diabetes Mellitus, Type 2; Gene Expression Regulation; Gluconeogenesis; Glucose-6-Phosphate; Hep G2 Cells; Humans; Intracellular Signaling Peptides and Proteins; Methylation; Phosphoenolpyruvate Carboxykinase (GTP); Protein-Arginine N-Methyltransferases; S-Adenosylmethionine; Selenoprotein P	2012
The importance of L-arginine metabolism modulation in diabetic patients with distal symmetric polyneuropathy. Journal of the neurological sciences, 2013, Jan-15, Volume: 324, Issue:1-2 Topics: Aged; Arginase; Arginine; Blood Glucose; Chromatography, High Pressure Liquid; Diabetes Mellitus, Type 2; Diabetic Neuropathies; Electrodiagnosis; Female; Fructosamine; Glycated Hemoglobin; Humans; Male; Methylation; Middle Aged; Nitrates; Nitrites; S-Nitrosothiols; Tyrosine	2013
ADMA, SDMA and L-arginine/ADMA ratio but not DDAH genetic polymorphisms are reliable predictors of diabetic nephropathy progression as identified by competing risk analysis. Kidney & blood pressure research, 2012, Volume: 36, Issue:1 Topics: Adult; Aged; Amidohydrolases; Arginine; Cross-Sectional Studies; Czech Republic; Diabetes Mellitus, Type 1; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Disease Progression; Female; Follow-Up Studies; Humans; Male; Methylation; Middle Aged; Multivariate Analysis; Polymorphism, Single Nucleotide; Predictive Value of Tests; Prognosis; Reproducibility of Results; Risk Factors	2012
Inhibition of insulin-dependent glucose uptake by trivalent arsenicals: possible mechanism of arsenic-induced diabetes. Toxicology and applied pharmacology, 2004, Aug-01, Volume: 198, Issue:3 Topics: Animals; Arsenicals; Cell Survival; Cells, Cultured; Diabetes Mellitus, Type 2; Glucose; Insulin; Methylation; Mice	2004
Effects of insulin on methionine and homocysteine kinetics in type 2 diabetes with nephropathy. Diabetes, 2005, Volume: 54, Issue:10 Topics: Blood Glucose; Carbon Dioxide; Diabetes Mellitus, Type 2; Diabetic Nephropathies; Fasting; Food; Glucose Clamp Technique; Glycated Hemoglobin; Heterozygote; Homocysteine; Homozygote; Humans; Insulin; Kinetics; Male; Methionine; Methylation; Methylenetetrahydrofolate Reductase (NADPH2); Middle Aged; Mutation; Sulfur	2005
Simultaneously quantitative measurement of comprehensive profiles of esterified and non-esterified fatty acid in plasma of type 2 diabetic patients. Chemistry and physics of lipids, 2007, Volume: 150, Issue:2 Topics: Adult; Aged; Calibration; Chromatography, Thin Layer; Diabetes Mellitus, Type 2; Esters; Fatty Acids; Female; Gas Chromatography-Mass Spectrometry; Humans; Male; Methylation; Middle Aged; Multivariate Analysis; Oleic Acid; Reproducibility of Results; Rosiglitazone; Thiazolidinediones; Time Factors	2007
Is the erythrocyte membrane fatty acid composition a valid index of skeletal muscle membrane fatty acid composition? Metabolism: clinical and experimental, 2000, Volume: 49, Issue:9 Topics: Adult; Cell Membrane; Chromatography, Gas; Diabetes Mellitus, Type 2; Erythrocyte Membrane; Fatty Acids; Fatty Acids, Omega-6; Fatty Acids, Unsaturated; Female; Homeostasis; Humans; Insulin; Insulin Resistance; Male; Methylation; Middle Aged; Models, Biological; Muscle, Skeletal; Phospholipids	2000
Regulation of myocardial phospholipid N-methylation by insulin and diabetes. Advances in experimental medicine and biology, 2001, Volume: 498 Topics: Adenosine Triphosphate; Animals; Animals, Newborn; Diabetes Mellitus, Type 2; Heart; Homeostasis; Insulin; Kinetics; Methylation; Methyltransferases; Myocardium; Phosphatidylethanolamine N-Methyltransferase; Phospholipids; Rats; Rats, Wistar	2001