Ayush Noori
Overview
Explore the profile of Ayush Noori including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
250
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0
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Recent Articles
1.
Serrano-Pozo A, Li H, Li Z, Munoz-Castro C, Jaisa-Aad M, Healey M, et al.
Nat Neurosci
. 2024 Nov;
27(12):2384-2400.
PMID: 39528672
Astrocytes are crucial to brain homeostasis, yet their changes along the spatiotemporal progression of Alzheimer's disease (AD) neuropathology remain unexplored. Here we performed single-nucleus RNA sequencing of 628,943 astrocytes from...
2.
Gao S, Fang A, Huang Y, Giunchiglia V, Noori A, Schwarz J, et al.
Cell
. 2024 Nov;
187(22):6125-6151.
PMID: 39486399
We envision "AI scientists" as systems capable of skeptical learning and reasoning that empower biomedical research through collaborative agents that integrate AI models and biomedical tools with experimental platforms. Rather...
3.
Johnson R, Li M, Noori A, Queen O, Zitnik M
Annu Rev Biomed Data Sci
. 2024 May;
7(1):345-368.
PMID: 38749465
In clinical artificial intelligence (AI), graph representation learning, mainly through graph neural networks and graph transformer architectures, stands out for its capability to capture intricate relationships and structures within clinical...
4.
Noori A, Jayakumar R, Moturi V, Li Z, Liu R, Serrano-Pozo A, et al.
J Alzheimers Dis
. 2024 Feb;
99(s2):S397-S407.
PMID: 38306039
Background: Recent Alzheimer's disease (AD) discoveries are increasingly based on studies from a variety of omics technologies on large cohorts. Currently, there is no easily accessible resource for neuroscientists to...
5.
Ektefaie Y, Dasoulas G, Noori A, Farhat M, Zitnik M
Nat Mach Intell
. 2023 Dec;
5(4):340-350.
PMID: 38076673
Artificial intelligence for graphs has achieved remarkable success in modeling complex systems, ranging from dynamic networks in biology to interacting particle systems in physics. However, the increasingly heterogeneous graph datasets...
6.
Das S, Li Z, Wachter A, Alla S, Noori A, Abdourahman A, et al.
Alzheimers Dement
. 2023 Jul;
20(1):74-90.
PMID: 37461318
Introduction: Omics studies have revealed that various brain cell types undergo profound molecular changes in Alzheimer's disease (AD) but the spatial relationships with plaques and tangles and APOE-linked differences remain...
7.
Kim E, Rajan A, Chang K, Govindarajan S, Gulick C, English E, et al.
G3 (Bethesda)
. 2023 Jun;
13(9).
PMID: 37279923
Conditional gene regulation in Drosophila through binary expression systems like the LexA-LexAop system provides a superb tool for investigating gene and tissue function. To increase the availability of defined LexA...
8.
Wilcox D, Rudmann E, Ye E, Noori A, Magdamo C, Jain A, et al.
AIDS
. 2023 May;
37(10):1565-1571.
PMID: 37195278
Background: Data supporting dementia as a risk factor for coronavirus disease 2019 (COVID-19) mortality relied on ICD-10 codes, yet nearly 40% of individuals with probable dementia lack a formal diagnosis....
9.
Noori A, Li M, Tan A, Zitnik M
Bioinformatics
. 2023 May;
39(5).
PMID: 37140542
Summary: Heterogeneous knowledge graphs (KGs) have enabled the modeling of complex systems, from genetic interaction graphs and protein-protein interaction networks to networks representing drugs, diseases, proteins, and side effects. Analytical...
10.
Distinct Transcriptomic Responses to Aβ plaques, Neurofibrillary Tangles, and in Alzheimer's Disease
Das S, Li Z, Wachter A, Alla S, Noori A, Abdourahman A, et al.
bioRxiv
. 2023 Mar;
PMID: 36993332
Introduction: Omics studies have revealed that various brain cell types undergo profound molecular changes in Alzheimer's disease (AD) but the spatial relationships with plaques and tangles and -linked differences remain...