Denigma

Longevity Variant Database

Narrow results by variant, study, or associated fields (e.g. gene symbol ADRB2):

Use ontology terms to further narrow results (e.g. aging, insulin, etc.):

  • Variant effect: + -
    Longevity‑Associated « 
  • Study type: + -
    GWAS (2)   ‑ (8)   Candidate Region/Gene (344)   Meta‑Analysis (30)   Complete Mitochondrial Genome (1)   Genome‑Wide Association Study (607)   Mitochondrial Haplogroup (7)   Mitochondrial genome (3)  
  • Variant type: + -
    SNP (243)   Locus (3)   Haplotype (39)   STR (3)   Deletion (1)   CNV (1)    (1)   VNTR (1)  
    • 1 2 3 4 5 6 7 8 9 10 11 12
    13 14 15 16 17 18 19 20 21 X Y MT
    Export results (Download)

    Populations | Study Types | Variant Types


    LVDB_word_cloud.png
    logo.png
    variants.jpg
    polymorphism factor odds ratio pvalue initial number replication number Population age of cases shorter lived allele longer lived allele study type reference
    rs680109 GRIA4 2.52e-05 1364 American, British Age range 50-108; mean age at death 80.2 C A Genome-Wide Association Study 22445811
    rs7103504 CNTN5 4.39e-05 1364 American, British Age range 50-108; mean age at death 80.2 A G Genome-Wide Association Study 22445811
    rs7952321 OR5AS1 4.68e-05 1364 American, British Age range 50-108; mean age at death 80.2 T G Genome-Wide Association Study 22445811
    - TH 0.045 202 vs 170 vs 82 Italian 100-105 (oldest of 3 age groups, see notes) Candidate Region/Gene 11053670
    3' 28-base pair variable number tandem repeat (HRAS1 3'VNTR) HRAS 1.13 0.002 234 vs 467 Italian centenarians a3 allele (see notes) Candidate Region/Gene 11943467
    A/G IGF2 0.063 (150 m, 74 f) vs (121 m, 320 f) Ashkenazi Jewish Mean age 75 A, AA Candidate Region/Gene 15621215
    APOA1-MspI-RFLP (−75) APOA1 0.016 229 vs 571 Calabrian 81–109 (median 101) A (=Absence) Candidate Region/Gene 12556235
    APOA1-MspI-RFLP A/P alleles APOA1 0.045 413 vs. 571 Italian median age 101 A P Candidate Region/Gene 12556235
    apoAIV(360:His) APOA4 0.005 119 (see notes) vs 264 French 74.29 ∓ 8.46 ApoAIV-1_x000D_, by the order of the sentence - I'm assuming it's Glutamine = G Candidate Region/Gene 9533408
    APOC3 T455C APOC3 0.05 147 elderly individuals (70–106 years old) Russian mean age: 84.6 years Candidate Region/Gene 11193221
    DRD4 7R allele DRD4 3.5e-08 310 vs 2909 European mean age 95.2 years Candidate Region/Gene 23283341
    G477T SIRT3 0.0272 801 Italian 120 subject aged 100 or older GT TT Candidate Region/Gene 14580859
    HinfI347 APOA4 0.05 71 vs 100 Italian mean102.3 years Candidate Region/Gene 9622284
    HRAS1 3'VNTR HRAS 1.13 0.551 234 vs 467 Italian Minimum age 100 a3 non-a3 Candidate Region/Gene 11943467
    rs10502005 MMP20 1.48 2.42e-05 403 vs 1670 3746 vs 5912 Dutch Mean age 94 A Genome-Wide Association Study 21418511
    rs11039149 NR1H3 0.015 599 Dutch 85 years haplotype 1 haplotype 2 Candidate Region/Gene 17452725
    rs11040489 KRTAP5-6 0.005869 1600 samples (cases and controls combined) German, Italian Candidate Region/Gene 19367319
    rs11235972 UCP3 0.029 908 (1905 Cohort) vs 708 (Study of Middle-Aged Danish Twins (MADT)) Danish 93 A Candidate Region/Gene 22743239
    rs1470196 KIAA1377 1.33 0.000498694 801 vs 914 Caucasian Median age 104 A G Genome-Wide Association Study 22279548
    rs189037 ATM 1.85 0.037 67 vs 61 Italian Centenarians Candidate Region/Gene 22960875
    rs189037 ATM 1.85 0.028 128 vs 150 Italian - 22960875
    rs189037 (genotype) ATM 0.004 875 (280 m, 595 f) vs 886 (491 m, 395 f) Chinese Mean age 94,6, healthy CT (Article); GA (ENSEMBL) Candidate Region/Gene 20816691
    rs2060793 CYP2R1 0.04 1038 (offspring of nonagenarians who had at least one nonagenarian sibling) vs 461 (offsprings' partners) Dutch Males: >/= 89; Females: >/= 91 Candidate Region/Gene 23128285
    rs216493 PLEKHA7 1.10 0.001543457 801 vs 914 Caucasian Median age 104 A G Genome-Wide Association Study 22279548
    rs2509049 H2AFX 0.63 0.017 1089 (see notes - follow-up study) 563 (see notes - follow-up study) Danish 92.2–93.8 (mean age 93.2) w/ 11.4 years follow-up A Candidate Region/Gene 22406557
    • Page 1 of 2
    • 25 of 49 variants

    The Longevity Variant Database (LVDB) is a collaborative effort to catalogue all published genetic variants relevant to human longevity.

    The project is directed by the Health Extension Research Foundation [http://www.healthextension.co/about/], and the online content is managed by the members of the Global Computing Initiative.

    LVDB is driven by an international collaboration of scientists, programmers, and volunteers, including Joe Betts-LaCroix, Kristen Fortney, Daniel Wuttke, Eric K. Morgen, Nick Schaum, John M. Adams, Jessica Choi, Barry Goldberg, Amir Levine, Maria Litovchenko, Aiste Narkeviciute, Emily Quist, Navneet Ramesh, Justin Rebo, Dmitri Shytikov, and Jimi Vyas. o

    Suggest a new study Report a database issue