Abhishek Nag
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Explore the profile of Abhishek Nag including associated specialties, affiliations and a list of published articles.
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58
Citations
1986
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Recent Articles
1.
Loesch D, Garg M, Matelska D, Vitsios D, Jiang X, Ritchie S, et al.
Nat Commun
. 2025 Mar;
16(1):2124.
PMID: 40032831
Genomics can provide insight into the etiology of type 2 diabetes and its comorbidities, but assigning functionality to non-coding variants remains challenging. Polygenic scores, which aggregate variant effects, can uncover...
2.
Mitchell J, Camacho N, Shea P, Stopsack K, Joseph V, Burren O, et al.
Nat Commun
. 2025 Feb;
16(1):1779.
PMID: 39971927
To assess the contribution of rare coding germline genetic variants to prostate cancer risk and severity, we perform here a meta-analysis of 37,184 prostate cancer cases and 331,329 male controls...
3.
Wen S, Kuri-Morales P, Hu F, Nag A, Tachmazidou I, Deevi S, et al.
Nat Genet
. 2025 Feb;
57(3):572-582.
PMID: 39948438
The impact of genetic ancestry on the development of clonal hematopoiesis (CH) remains largely unexplored. Here, we compared CH in 136,401 participants from the Mexico City Prospective Study (MCPS) to...
4.
Burren O, Dhindsa R, Deevi S, Wen S, Nag A, Mitchell J, et al.
Nat Genet
. 2024 Aug;
56(9):1832-1840.
PMID: 39192095
Telomeres protect chromosome ends from damage and their length is linked with human disease and aging. We developed a joint telomere length metric, combining quantitative PCR and whole-genome sequencing measurements...
5.
Mitchell J, Camacho N, Shea P, Stopsack K, Joseph V, Burren O, et al.
medRxiv
. 2024 May;
PMID: 38766261
The etiology of prostate cancer, the second most common cancer in men globally, has a strong heritable component. While rare coding germline variants in several genes have been identified as...
6.
Sarkar S, Capu R, Pashkevich Y, Knobel J, Cantarino M, Nag A, et al.
PNAS Nexus
. 2024 May;
3(4):pgae100.
PMID: 38736471
Heterostructures from complex oxides allow one to combine various electronic and magnetic orders as to induce new quantum states. A prominent example is the coupling between superconducting and magnetic orders...
7.
Ziyatdinov A, Torres J, Alegre-Diaz J, Backman J, Mbatchou J, Turner M, et al.
Nature
. 2024 Feb;
626(8001):E18.
PMID: 38332034
No abstract available.
8.
Ueda H, Mankowsky R, Paris E, Sander M, Deng Y, Liu B, et al.
Nat Commun
. 2023 Nov;
14(1):7778.
PMID: 38012165
Quantifying the dynamics of normal modes and how they interact with other excitations is of central importance in condensed matter. Spin-lattice coupling is relevant to several sub-fields of condensed matter...
9.
Arpaia R, Martinelli L, Sala M, Caprara S, Nag A, Brookes N, et al.
Nat Commun
. 2023 Nov;
14(1):7198.
PMID: 37938250
The universality of the strange metal phase in many quantum materials is often attributed to the presence of a quantum critical point (QCP), a zero-temperature phase transition ruled by quantum...
10.
Choi J, Li J, Nag A, Pelliciari J, Robarts H, Tam C, et al.
Adv Mater
. 2023 Oct;
36(3):e2307515.
PMID: 37830432
The omnipresence of charge density waves (CDWs) across almost all cuprate families underpins a common organizing principle. However, a longstanding debate of whether its spatial symmetry is stripe or checkerboard...