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GWAS Study

Genetic architecture of vitamin B12 and folate levels uncovered applying deeply sequenced large datasets.

Grarup N, Sulem P, Sandholt CH et al.

23754956 PubMed ID
GWAS Study Type
38229 Participants
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

GN
Grarup N
SP
Sulem P
SC
Sandholt CH
TG
Thorleifsson G
AT
Ahluwalia TS
SV
Steinthorsdottir V
BH
Bjarnason H
GD
Gudbjartsson DF
MO
Magnusson OT
ST
Sparsø T
AA
Albrechtsen A
KA
Kong A
MG
Masson G
TG
Tian G
CH
Cao H
NC
Nie C
KK
Kristiansen K
HL
Husemoen LL
TB
Thuesen B
LY
Li Y
NR
Nielsen R
LA
Linneberg A
OI
Olafsson I
EG
Eyjolfsson GI
JT
Jørgensen T
WJ
Wang J
HT
Hansen T
TU
Thorsteinsdottir U
SK
Stefánsson K
PO
Pedersen O
Chapter II

Abstract

Summary of the research findings

Genome-wide association studies have mainly relied on common HapMap sequence variations. Recently, sequencing approaches have allowed analysis of low frequency and rare variants in conjunction with common variants, thereby improving the search for functional variants and thus the understanding of the underlying biology of human traits and diseases. Here, we used a large Icelandic whole genome sequence dataset combined with Danish exome sequence data to gain insight into the genetic architecture of serum levels of vitamin B(12) (B12) and folate. Up to 22.9 million sequence variants were analyzed in combined samples of 45,576 and 37,341 individuals with serum B(12) and folate measurements, respectively. We found six novel loci associating with serum B(12) (CD320, TCN2, ABCD4, MMAA, MMACHC) or folate levels (FOLR3) and confirmed seven loci for these traits (TCN1, FUT6, FUT2, CUBN, CLYBL, MUT, MTHFR). Conditional analyses established that four loci contain additional independent signals. Interestingly, 13 of the 18 identified variants were coding and 11 of the 13 target genes have known functions related to B(12) and folate pathways. Contrary to epidemiological studies we did not find consistent association of the variants with cardiovascular diseases, cancers or Alzheimer's disease although some variants demonstrated pleiotropic effects. Although to some degree impeded by low statistical power for some of these conditions, these data suggest that sequence variants that contribute to the population diversity in serum B(12) or folate levels do not modify the risk of developing these conditions. Yet, the study demonstrates the value of combining whole genome and exome sequencing approaches to ascertain the genetic and molecular architectures underlying quantitative trait associations.

38,229 Danish, Icelandic ancestry individuals

Chapter III

Study Statistics

Key metrics and study information

38229
Total Participants
GWAS
Study Type
No
Replicated
European
Ancestry
Denmark, Iceland
Recruitment Country
Chapter IV

AI-Generated Summary

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