| scholarly article | Q13442814 |
| P50 | author | Charlotte Ling | Q60057788 |
| Tina Rönn | Q63127920 | ||
| Leif Groop | Q27214742 | ||
| P2093 | author name string | Y Du | |
| Z Yang | |||
| B Lu | |||
| J Wen | |||
| R Hu | |||
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| P433 | issue | 5 | |
| P921 | main subject | melatonin | Q180912 |
| type 2 diabetes | Q3025883 | ||
| P304 | page(s) | 830-833 | |
| P577 | publication date | 2009-02-25 | |
| P1433 | published in | Diabetologia | Q5270140 |
| P1476 | title | A common variant in MTNR1B, encoding melatonin receptor 1B, is associated with type 2 diabetes and fasting plasma glucose in Han Chinese individuals | |
| P478 | volume | 52 |
| Q33864212 | A common polymorphism rs3781637 in MTNR1B is associated with type 2 diabetes and lipids levels in Han Chinese individuals. |
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| Q44806080 | Han ethnicity-specific type 2 diabetic treatment from traditional Chinese medicine? |
| Q33590121 | Implication of genetic variants near SLC30A8, HHEX, CDKAL1, CDKN2A/B, IGF2BP2, FTO, TCF2, KCNQ1, and WFS1 in type 2 diabetes in a Chinese population |
| Q28546709 | Increased Insulin following an Oral Glucose Load, Genetic Variation near the Melatonin Receptor MTNR1B, but No Biochemical Evidence of Endothelial Dysfunction in Young Asian Men and Women |
| Q33531795 | Investigation of type 2 diabetes risk alleles support CDKN2A/B, CDKAL1, and TCF7L2 as susceptibility genes in a Han Chinese cohort |
| Q34807904 | Large scale meta-analyses of fasting plasma glucose raising variants in GCK, GCKR, MTNR1B and G6PC2 and their impacts on type 2 diabetes mellitus risk. |
| Q30318580 | Long‐term enteral administration of melatonin reduces plasma insulin and increases expression of pineal insulin receptors in both Wistar and type 2‐diabetic Goto‐Kakizaki rats |
| Q91583503 | MTNR1B Gene Polymorphisms Are Associated With the Therapeutic Responses to Repaglinide in Chinese Patients With Type 2 Diabetes Mellitus |
| Q90455481 | MTNR1B genetic polymorphisms as risk factors for gestational diabetes mellitus: a case-control study in a single tertiary care center |
| Q33557509 | MTNR1B rs10830963 is associated with fasting plasma glucose, HbA1C and impaired beta-cell function in Chinese Hans from Shanghai |
| Q46577413 | Melatonin improves glucose homeostasis in young Zucker diabetic fatty rats |
| Q36040915 | Melatonin in aging and disease -multiple consequences of reduced secretion, options and limits of treatment |
| Q90371354 | Melatonin in type 2 diabetes mellitus and obesity |
| Q37183371 | Melatonin pathway genes and breast cancer risk among Chinese women |
| Q37450919 | Melatonin receptors in pancreatic islets: good morning to a novel type 2 diabetes gene |
| Q37950409 | Melatonin, the circadian multioscillator system and health: the need for detailed analyses of peripheral melatonin signaling. |
| Q37921910 | New type 2 diabetes risk genes provide new insights in insulin secretion mechanisms |
| Q28236687 | Physiological responses to food intake throughout the day |
| Q36732267 | Polymorphisms in Four Genes (KCNQ1 rs151290, KLF14 rs972283, GCKR rs780094 and MTNR1B rs10830963) and Their Correlation with Type 2 Diabetes Mellitus in Han Chinese in Henan Province, China |
| Q51377986 | Relationship between MTNR1B (melatonin receptor 1B gene) polymorphism rs10830963 and glucose levels in overweight children and adolescents |
| Q34077057 | Relationship between melatonin receptor 1B and insulin receptor substrate 1 polymorphisms with gestational diabetes mellitus: a systematic review and meta-analysis |
| Q38757077 | Role of melatonin in glucose uptake by cardiomyocytes from insulin-resistant Wistar rats. |
| Q35172910 | Role of melatonin on diabetes-related metabolic disorders |
| Q51304606 | The Impact of Genetic Variants for Different Physiological Characterization of Type 2 Diabetes Loci on Gestational Insulin Signaling in Nondiabetic Pregnant Chinese Women |
| Q26786629 | The role of melatonin in diabetes: therapeutic implications |
| Q92630401 | Time-Restricted Eating to Prevent and Manage Chronic Metabolic Diseases |
| Q90642449 | Training the Circadian Clock, Clocking the Drugs, and Drugging the Clock to Prevent, Manage, and Treat Chronic Diseases |
| Q43034276 | Two susceptible diabetogenic variants near/in MTNR1B are associated with fasting plasma glucose in a Han Chinese cohort |
| Q49846774 | Untimely Oxidative Stress in β-cells Leads to Diabetes - Role of Circadian Clock in β-cell Function |
| Q33754602 | Variants from GIPR, TCF7L2, DGKB, MADD, CRY2, GLIS3, PROX1, SLC30A8 and IGF1 Are Associated with Glucose Metabolism in the Chinese |
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