The 13k exome sequence analysis dataset is a subset of the AMP T2D-GENES exome sequence analysis dataset.
Download summary statistics for the SIGMA cohorts (Hispanic ancestry) | README
Publications
Exome sequencing of 20,791 cases of type 2 diabetes and 24,440 controls.
Flannick J, Mercader JM, Fuchsberger C, Udler MS, Mahajan A, et al.
Nature. 2019 May 22. doi: 10.1038/s41586-019-1231-2
Sequence data and association statistics from 12,940 type 2 diabetes cases and controls.
Flannick J, Fuchsberger C, Mahajan A, et al.
Sci Data. 2017 Dec 19;4:170179. doi: 10.1038/sdata.2017.179
The genetic architecture of type 2 diabetes.
Fuchsberger C, Flannick J, Teslovich TM, Mahajan A, Agarwala V, Gaulton KJ, et al.
Nature 2016 Aug 4;536(7614):41-7. doi: 10.1038/nature18642
Association of a low-frequency variant in HNF1A with type 2 diabetes in a Latino population.
SIGMA Type 2 Diabetes Consortium, et al.
JAMA. 2014 Jun 11;311(22):2305-14. doi: 10.1001/jama.2014.6511
Whole-exome sequencing of 2,000 Danish individuals and the role of rare coding variants in type 2 diabetes.
Lohmueller KE, et al.
Am J Hum Genet. 2013 Dec 5;93(6):1072-86. doi: 10.1016/j.ajhg.2013.11.005
Phenotypes
Subjects
| Project |
Cases |
Controls |
Cohort (Click to view selection criteria for cases and controls) |
Ancestry |
|---|
| T2D-GENES |
522 |
531 |
Wake Forest School of Medicine Study
| Case selection criteria |
Control selection criteria |
|---|
- Cases are self-reported diabetics with diabetic nephropathy, recruited from dialysis clinics
- Age of onset ≥ 25
- Individuals excluded if at any point after diagnosis treatment consisted of insulin therapy alone
- Additionally, at least one of the following three criteria met for inclusion: a) T2D diagnosed at least 5 years before initiating renal replacement therapy, b) background or greater diabetic retinopathy, and c) ≥ 100 mg/dl proteinuria on urinalysis in the absence of other causes of nephropathy
|
- No current diagnosis of diabetes or renal disease
- Individuals recruited from community and internal medicine clinics
|
|
African American |
| T2D-GENES |
476 |
513 |
Jackson Heart Study
| Case selection criteria |
Control selection criteria |
|---|
- Genomic DNA from blood and genome-wide genotypes available (minimum 25 ug DNA remaining)
- Non-related individuals based on family IDs
- ADA 2004 definition of T2D diagnosed on either of two exams
|
- No T2D by ADA 2004 definition, fasting plasma glucose < 100 mg/dl, and HbA1c < 6% at each of two exams
- Controls were matched to cases in a two-stage approach:
- Strong matches (greedy algorithm): age > 50, sex match, BMI within 1 unit, and age within 5 years (N=457 matched pairs)
- Closest available matches: sex match and BMI > 25; for females, BMI within 5 units and age within 20 years; for males, BMI within 8 units and age within 25 years (N=117 matched pairs)
|
|
African American |
| T2D-GENES |
1,291 |
1,242 |
BioMe Biobank Program (BioMe)
| Case selection criteria |
Control selection criteria |
|---|
|
|
|
|
African American |
| ESP |
467 |
1,374 |
Exome Sequencing Project (ESP)
| Case selection criteria |
Control selection criteria |
|---|
- ARIC: Self report of Type 2 Diabetes
- CARDIA: Self report of Type 2 Diabetes
- CHS: ADA definition
- Framingham: Self report of Type 2 Diabetes
- JHS: Type 2 Diabetes Status defined using ADA 2004
- MESA: Exam 1 Diabetes mellitus using 2003 ADA
- WHI: Self report of Type 2 Diabetes
|
|
|
African American |
| ESP |
389 |
2,842 |
Exome Sequencing Project (ESP)
| Case selection criteria |
Control selection criteria |
|---|
- ARIC: Self report of Type 2 Diabetes
- CARDIA: Self report of Type 2 Diabetes
- CHS: ADA definition
- Framingham: Self report of Type 2 Diabetes
- JHS: Type 2 Diabetes Status defined using ADA 2004
- MESA: Exam 1 Diabetes mellitus using 2003 ADA
- WHI: Self report of Type 2 Diabetes
|
|
|
European |
| T2D-GENES |
483 |
482 |
Singapore Diabetes Cohort Study and Singapore Prospective Study Program
| Case selection criteria |
Control selection criteria |
|---|
- Clinically ascertained T2D from primary care clinics
- Individuals with early age of diagnosis and with at least one first degree relative with T2D were preferentially selected
|
- Fasting blood glucose < 6 mmol/l
- No personal history of diabetes
- No anti-diabetic medication
- Older controls preferentially selected
|
|
East Asian |
| T2D-GENES |
985 |
991 |
Multi-Ethnic Cohort
| Case selection criteria |
Control selection criteria |
|---|
- Self-report of T2D diagnosis or medication
- Absence of T1D diagnosis
|
- No self-report of T2D diagnosis or medication
- No T1D or T2D diagnosis from the OSHPD, HMSA or KPH registries
|
|
East Asian |
| T2D-GENES |
529 |
567 |
Korea Association Research Project (KARE)
| Case selection criteria |
Control selection criteria |
|---|
- Past history of T2D
- Use of T2D medication
- Fasting plasma glucose ≥ 7 mmol/l or plasma glucose ≥ 11.1 mmol/l 2 hours after ingestion of 75gm oral glucose load
- Age of disease onset ≥ 40 years
- Participants with early onset and family history prioritized
|
- No past history of diabetes
- No anti-diabetic medication
- Fasting plasma glucose < 5.6 mmol/l and plasma glucose 2 hours after ingestion of 75g oral glucose load < 7.8 mmol/l at both baseline and follow up timepoints
- Older subjects with normal glucose prioritized
|
|
East Asian |
| T2D-GENES |
444 |
474 |
Korea SNUH
| Case selection criteria |
Control selection criteria |
|---|
- Clinically diagnosed as T2D using World Health Organization criteria
- Participants with at least one sibling with T2D were preferentially included
|
- Age ≥ 60 years old
- No previous history of diabetes
- No family history of diabetes in first degree relatives
- Fasting plasma glucose < 6.1 mmol/l
- HbA1c < 6.5%
|
|
East Asian |
| T2D-GENES |
483 |
482 |
Research Studies in Hong Kong
| Case selection criteria |
Control selection criteria |
|---|
- T2DM subjects were selected from the Hong Kong Diabetes Registry and Hong Kong Diabetes Family Study at CUHK
- Priority for individuals with young onset DM
|
- Controls were identified from a population based cohort of healthy adults in Hong Kong (Li Ka Shing cohort), together with another study which recruited healthy adults for clinical studies
|
|
East Asian |
| GoT2D |
1,289 |
1,251 |
Multiple cohorts
Finland-United States Investigation of NIDDM Genetics (FUSION) Study
| Case selection criteria |
Control selection criteria |
|---|
- Unrelated cases selected from FUSION families and stage 2 replication
- Samples met 1999 World Health Organization (WHO) criteria of fasting plasma glucose ≥ 7.0 mmol/l or postload glucose during an OGTT ≥ 11.1 mmol/l, by report of diabetes medication use, or based on medical record review
- Prioritized FUSION families with ≥ 2 first-degree relatives with T2D; BMI ≥ 18.5kg/m2; case with GWAS data or earliest age at onset, if no GWAS data available
- Prioritized FUSION stage 2 replication set with Metabochip data; BMI ≥ 18.5kg/m2; earliest age of onset; age of onset ≥ 35
|
- Unrelated controls with normal glucose tolerance (NGT) based on WHO (1999) definitions: fasting plasma glucose <6.1 mM and 2 hour postload glucose during an OGTT > 7.8 mM
- Frequency matched to cases by birth province; BMI ≥ 18.5kg/m2; age ≤ 80
- Within each birth province, prioritized samples from stage 2 replication with highest values for age + 2*BMI
|
Malmö-Botnia Study
| Case selection criteria |
Control selection criteria |
|---|
- A liability score was generated (Guey LT et al. 2011) which measures risk to T2D in the context of three known risk factors (age at onset, BMI, and gender) in 27,500 individuals drawn from three prospective cohorts: the Malmö Preventive Project, the Scania Diabetes Registry, and the Botnia Study; only BMI and gender used to construct scores for Scania and Botnia studies
- Eligible cases limited to individuals between 35 and 60 years of age and with a BMI between 20 and 35
- To match for ethnicity, 250 Botnia cases with the most extreme liability scores were selected, while 125 cases were selected from each of the Scania and Malmö studies
|
- Controls selected from the extreme of a liability score distribution, based upon gender, age and BMI at last follow-up visit; only BMI and gender used to construct scores for Malmö study
- Eligible controls limited to individuals above 35 years of age at follow-up and with a BMI between 20 and 40
- To match for ethnicity, equal numbers of controls were selected from the Botnia and Malmö studies
|
UK Type 2 Diabetes Genetics Consortium (UKT2D)
| Case selection criteria |
Control selection criteria |
|---|
- Cases drawn from the Wellcome Trust Case Control Consortium (WTCCC)
- Female samples with age of diagnosis ≥ 66 years or BMI ≥ 32kg/m2 excluded; male samples with age of diagnosis ≥ 62 years or BMI ≥ 31kg/m2 excluded
- Remaining samples were ranked by age and BMI, and the two ranks multiplied. 356 samples with the lowest values for this rank multiplier were selected for initial inclusion in the study
|
- Unrelated samples selected as controls from the Twins UK study
- A twin pair was considered for selection if there was no recorded family history of diabetes, neither twin was ever recorded as impaired glucose tolerant (defined as fasting glucose >6.1mmol/L in any reading), there were available quantitative trait and genetic (GWAs) data, and no evidence of admixture in MDS analysis of GWAs data
- From set of qualifying twin pairs, the best control twin was selected from each pair with the lowest ratio of fasting glucose level to BMI across all readings, and further prioritization of the qualifying unrelated samples involved selecting samples that had the lowest fasting glucose to (BMI * age) ratios
- Top two principal components were used to perform pairwise sample matching between cases and possible controls, and the best control for each case was selected
|
KORAgen Study Helmholtz zentrum München (KORA)
| Case selection criteria |
Control selection criteria |
|---|
- Samples drawn from KORA F3 and F4
- Diabetic status validated by doctor or by medication use
- Cases have ≥ 1 first degree relative with type 2 diabetes (self-reported)
- Cases have either BMI ≤ 30 and age of onset < 65, or BMI ≤ 33 and age of onset ≤ 60
|
- Controls selected from KORA F4
- All controls are normal glucose tolerant: fasting glucose level < 6.1 mmol/l and two hour glucose level after oral glucose tolerance test < 7.8 mmol/l
- Controls are either > 60 years of age with BMI > 32 or over 65 years of age with BMI > 31
|
|
European |
| T2D-GENES |
478 |
498 |
Metabolic Syndrome in Men Study (METSIM)
| Case selection criteria |
Control selection criteria |
|---|
- Previous diagnosis of T2D, or both fasting and 2-hr criteria met for new T2D diagnosis
- C-peptide > 0.10 nmol/L
- Anti-GAD antibody < 50 U/mL to rule out T1D
- Family history of diabetes (parents, sibs, children, grandparents, avuncular, cousins)
- Unrelated individuals based on family ID and IBS analyses
- Preferentially select individuals with with genotype data (N=494), as well as non-genotyped individuals with earlier possible age of diagnosis (N=26)
|
- Normal glucose tolerance at baseline and follow-up visits
- Prioritized samples with no family history of diabetes and meeting strict NGT criteria: fasting glucose < 5.6 mmol/l and 2 hour post-challenge glucose < 7.8 mmol/l
- Additional samples selected with fasting glucose < 6.1 mmol/l and 2 hour post-challenge glucose < 7.8 mmol/l
- Unrelated samples
- Older controls preferentially selected
|
|
European |
| T2D-GENES |
506 |
360 |
Ashkenazi
| Case selection criteria |
Control selection criteria |
|---|
- Ashkenazi Jewish origin, defined as having all four grandparents born in Northern or Eastern Europe; subjects with known or suspected Sephardic Jewish or non-Jewish ancestry excluded
- T2D defined according to the World Health Organisation criteria (fasting glucose > 140 mg/dl on two or more occasions or random glucose > 200 mg/dl)
- To avoid late-onset T1D, patients who became insulin-dependent within 2 years of diagnosis excluded; anti-GAD or anti-islet cell antibody titers not routinely measured
- T2D cases were selected from two separate DNA collections:
- Genome-wide, affected-sibling-pair linkage study (Permutt et al. Diabetes 2001). Families in which both parents were known to have diabetes were excluded. One affected individual selected from each family and, wherever possible, sibling with youngest age of diagnosis selected.
- Study to determine genetic risk for diabetic complications (Blech et al. PLoS One 2011). Patients ascertained by the Israel Diabetes Research Group between 2002 and 2004 from 15 diabetes clinics throughout Israel. Primary selection criteria: (1) known T1D or T2D for more than 10 years, (2) 4 grandparents being either Ashkenazi or Sephardic-North African Jewish. For this study, only T2D patients with all 4 grandparents of Ashkenazi Jewish origin and age of diagnosis between 35 and 60 were selected.
|
- Fasting blood glucose < 7 mmol/l
- No personal history of diabetes
- No anti-diabetic medications
|
|
European |
| LuCAMP |
992 |
985 |
Lundbeck Foundation Centre for Applied Medical Genomics in Personalised Disease Prediction, Prevention, and Care
| Case selection criteria |
Control selection criteria |
|---|
- diagnosis of type 2 diabetes
- BMI > 27.5 kg/m2
- hypertension (systolic/diastolic BP > 140/90 mmHg or use of antihypertensive medication)
|
- fasting plasma glucose < 5.6 mmol/l
- 2 h post-OGTT plasma glucose < 7.8 mmol/l
- BMI < 27.5 kg/m2
- blood pressure < 140/90 mmHg
|
|
European |
| T2D-GENES |
949 |
943 |
Genetics of Diabetes and Audit Research Tayside Study (GoDARTS)
| Case selection criteria |
Control selection criteria |
|---|
|
|
|
|
European |
| T2D-GENES |
390 |
589 |
Framingham Heart Study (FHS)
| Case selection criteria |
Control selection criteria |
|---|
- For the Original offspring, used the diabetes file to define T2D (on medication or (non-fasting) blood glucose > 200)
|
|
|
European |
| SIGMA T2D |
5,181 |
5,416 |
Multiple cohorts
Mexico City Diabetes Study (MCDS)
| Case selection criteria |
Control selection criteria |
|---|
- age 35-64 years
- non-pregnant females
- T2D diagnosis and medication OR ADA criteria: Fasting glucose 126 mg/dL or more or 2 hr post 75 gr of glucose load 200 or more
|
- age 35-64 years
- non-pregnant females
|
Multiethnic Cohort (MEC)
| Case selection criteria |
Control selection criteria |
|---|
- self-report of T2D diagnosis or medication
- absence of T1D diagnosis
|
- no self-report of T2D diagnosis or medication
- no T1D or T2D diagnosis from the OSHPD, HMSA or KPH registries
|
Diabetes in Mexico Study (DMS)
| Case selection criteria |
Control selection criteria |
|---|
- Age ≥18 years
- previous T2D diagnosis or fasting glucose levels above 125 mg/dL
- excluded individuals with fasting glycemia between 100-125 mg/dL
|
- Age ≥ 45 years
- fasting glucose levels below 100 mg/dL
|
UNAM/INCMNSZ Diabetes Study (UIDS)
| Case selection criteria |
Control selection criteria |
|---|
- ADA criteria: fasting plasma glucose values ≥126 mg/dL, current treatment with a hypoglycemic agent, or casual glucose values ≥200 mg/dL
|
- Age ≥45 years
- fasting plasma glucose concentration < 100 mg/dl
- no previous history of hyperglycemia, gestational diabetes or use of metformin
|
|
Hispanic |
| T2D-GENES & SIGMA T2D |
1,719 |
1,703 |
Starr County, Texas
| Case selection criteria |
Control selection criteria |
|---|
- Diagnosis of diabetes according to National Diabetes Data Group (1979) guidelines drawn from several studies in Starr County:
- Fasting glucose ≥ 140 mg/dl on more than 1 occasion
- Self-reported physician-diagnosed diabetes and self reported therapy with either oral antidiabetic agents or insulin (either currently or for more than one month in the past)
- In instances where cases were drawn from families, the individual with youngest age at onset was chosen
|
- Controls ascertained from epidemiologically represented sample of individuals in Starr County, TX
- Individuals with known diagnosis of diabetes excluded
- impaired glucose tolerant and impaired fasting glucose controls retained due to the age difference between cases and controls (controls are younger on average) and to allow sufficient sample size
|
|
Hispanic |
| T2D-GENES |
243 |
202 |
San Antonio Mexican American Family Studies: San Antonio Family Heart Study, San Antonio Family Diabetes/Gallbladder Study, Veterans Administration Genetic Epidemiology Study, and Family Investigation of Nephropathy and Diabetes Study - San Antonio Component
| Case selection criteria |
Control selection criteria |
|---|
- Unrelated and non-overlapping individuals/samples drawn from four separate family studies, San Antonio, TX
- Cases met one or more of four criteria:
- American Diabetes Association [ADA] criterion (2002) -- fasting plasma glucose ≥ 126 mg/dl
- World Health Organization [WHO] criteria (1999) -- fasting plasma glucose ≥ 126 mg/dl or a 2 hour glucose tolerance test ≥ 200 mg/dl
- Self-reported physician-diagnosed diabetes and self-reported current therapy with either oral antidiabetic agents or insulin
- Had hemoglobin A1c (HbA1c) ≥ 7.0%
|
- No self-reported antidiabetic therapy at any visit, including oral agents or insulin prescribed as a result of physician-diagnosed diabetes AND one or more of the following:
- Fasting glucose < 126 mg/dl at each visit
- If OGTT performed, 2 hour glucose must be < 200 mg/dl
- No history of diabetes and HbA1c < 6.0%, or HbA1c 6.0-6.9% and fasting glucose < 126 mg/dl
- Samples prioritized with strict NGT with no family history first, then NGT in two visits, followed by oldest age
|
|
Hispanic |
| T2D-GENES |
529 |
537 |
London Life Sciences Population (LOLIPOP)
| Case selection criteria |
Control selection criteria |
|---|
- Samples chosen from a population-based cohort study
- Indians living in West London, UK with all 4 grandparents born on the Indian subcontinent
- Prevalent T2D defined as previous physician diagnosis of diabetes on treatment, with onset of diabetes after the age of 18 years and without insulin use in the first year after diagnosis; or fasting plasma glucose ≥ 7.0 mmol/L
|
- No previous history of diabetes
- No anti-diabetic medication
- Fasting plasma glucose < 6.0 mmol/L
|
|
South Asian |
| T2D-GENES |
1,053 |
883 |
Multi-Ethnic Cohort
| Case selection criteria |
Control selection criteria |
|---|
- Self-report of T2D diagnosis or medication
- Absence of T1D diagnosis
|
- No self-report of T2D diagnosis or medication
- No T1D or T2D diagnosis from the OSHPD, HMSA or KPH registries
|
|
South Asian |
| T2D-GENES |
854 |
890 |
Pakistan Genomic Resource (PGR)
| Case selection criteria |
Control selection criteria |
|---|
- Cases were participants who had either prior history of type 2 diabetes, fasting glucose levels of greater than 125, or HbA1C levels of greater than 6.5%
|
- Controls were participants who had no prior history of type-2 diabetes, had normal glucose levels or HbA1c levels < 6.0%
|
|
South Asian |
| T2D-GENES |
536 |
576 |
Singapore Indian Eye Study
| Case selection criteria |
Control selection criteria |
|---|
- HbA1c ≥ 6.5% or personal history of diabetes with age at diagnosis available
- Preferentially selected cases with at least one first degree relative with T2D
|
- HbA1c < 6%
- No personal history of diabetes
- Not taking antidiabetes medication
- Older controls preferentially selected
|
|
South Asian |
Projects
Exome Sequencing project (ESP) Learn more >
The Exome Sequencing Project (ESP) aims to discover novel genes and mechanisms contributing to heart, lung and blood disorders by pioneering the application of next-generation sequencing of the protein coding regions of the human genome across diverse, richly-phenotyped populations and to share these datasets and findings with the scientific community to extend and enrich the diagnosis, management and treatment of heart, lung and blood disorders.
Genetics of Type 2 Diabetes (GoT2D) Learn more >
The GoT2D consortium aims to understand the allelic architecture of type 2 diabetes through whole-genome sequencing, high-density SNP genotyping, and imputation. The reference panel based on this work is intended as a comprehensive inventory of low-frequency variants in Europeans, including SNPs, small insertions and deletions, and structural variants.
Lubeck Foundation Centre for Applied Medical Genomics in Personalised Disease Prediction, Prevention and Care (LuCamp) Learn more >
The LuCamp research consortium aims to discover and characterize novel variation in the human genome conferring an increased risk of visceral obesity, type 2 diabetes and hypertension and eventually premature cardiovascular disorders and death; discover and characterize novel variation in the human gut microbiome influencing metabolic and cardiovascular health; investigate how the novel molecular signatures interact mutually and with other risk markers, particularly in health behavior, influencing the risk of developing widespread metabolic disorders; and investigate how these discoveries may help improve metabolic and cardiovascular health in the at-risk population.
Slim Initiative in Genomic Medicine for the Americas (SIGMA T2D) Learn more >
The SIGMA partnership aims to understand the genomic basis of type 2 diabetes in Mexican and Latin American populations.
Type 2 Diabetes Genetic Exploration by Next-Generation Sequencing in Ethnic Samples (T2D-GENES) Learn more >
T2D-GENES (Type 2 Diabetes Genetic Exploration by Next-generation sequencing in multi-Ethnic Samples) is a large collaborative effort to find genetic variants that influence risk of type 2 diabetes. With funding from NIDDK, the group is pursuing three projects: (1) deep whole-exome sequencing in 10,000 people from five ethnicities (African-American, East Asian, South Asian, European, and Hispanic); (2) deep whole-genome sequencing of 600 individuals selected from extended Mexican American pedigrees; and (3) a trans-ethnic fine-mapping "mega-meta-analysis."
Overview of analysis and results
Two single-variant association analyses were conducted for each of the 25 sample sub-groups. For both analyses, all all non-reference alleles at multiallelic sites into a single “non-reference” allele. In the first analysis, all (including related) samples were analyzed using the EMMAX test, as implemented in the EPACTS software package, using the GRM computed from the ancestry-specific ancestry variants. Covariates for sequencing technology were included in the model where appropriate, but covariates for PCs of genetic ancestry, age, sex, or BMI were not included.
In the second analysis, unrelated samples were analyzed via the Firth logistic regression test, also as implemented in EPACTS; covariates for sequencing technology and for PCs of genetic ancestry (computed from the ancestry-specific ancestry variants) were included in the model. The number of PCs included varied by subgroup; to select the PCs to be included, we T2D status was regressed on sequencing technology and the first ten PCs. Any PC that demonstrated nominal (p<0.05) association with T2D, as well as all higher-order PCs, were included in the model.
For each of the 25×2=50 single-variant analyses, QQ plots of variant association statistics were inspected, and the stringency of the variant filters was increased if the distribution of association statistics appeared poorly calibrated. A 25-group fixed-effect inverse-variance weighted meta-analysis was then conducted for each of the Firth and EMMAX tests, using METAL. EMMAX results were used for association p-values and Firth results for effect size estimates.
