Suresh L Mehta
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Explore the profile of Suresh L Mehta including associated specialties, affiliations and a list of published articles.
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52
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1736
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Recent Articles
11.
Chokkalla A, Pajdzik K, Dou X, Dai Q, Mehta S, Arruri V, et al.
Transl Stroke Res
. 2022 Jun;
14(6):806-810.
PMID: 35737185
Methylation of adenosine at N1 position yields N-methyladenosine (mA), which is an epitranscriptomic modification that regulates mRNA metabolism. Recent studies showed that altered mA methylation promotes acute and chronic neurological...
12.
Mehta S, Chokkalla A, Bathula S, Vemuganti R
Transl Stroke Res
. 2022 Jan;
14(1):111-115.
PMID: 35088373
Transient focal ischemia induces a sustained downregulation of miR-7 leading to derepression of its target α-synuclein (α-Syn), which promotes neuronal death. We previously showed that treatment with miR-7 mimic prevents...
13.
Chelluboina B, Chokkalla A, Mehta S, Morris-Blanco K, Bathula S, Sankar S, et al.
J Cereb Blood Flow Metab
. 2021 Oct;
42(2):253-263.
PMID: 34689646
The role of tenascin-C (TNC) in ischemic stroke pathology is not known despite its prognostic association with cerebrovascular diseases. Here, we investigated the effect of TNC knockdown on post-stroke brain...
14.
Zimmerman M, Hall M, Qi Q, Mehta S, Chen G, Li P
Exp Ther Med
. 2021 Oct;
22(5):1295.
PMID: 34630650
Glutamate-induced excitotoxicity is a well-recognized cause of neuronal cell death. Nutritional supplementation with Coenzyme Q10 (CoQ10) has been previously demonstrated to serve neuro-protective effects against glutamate-induced excitotoxicity. The aim of...
15.
Mehta S, Chokkalla A, Vemuganti R
Neurochem Int
. 2021 Jul;
149:105139.
PMID: 34280469
The mammalian brain expresses several classes of noncoding RNAs (ncRNAs), including long ncRNAs (lncRNAs), circular RNAs (circRNAs), and microRNAs (miRNAs). These ncRNAs play vital roles in regulating cellular processes by...
16.
Chokkalla A, Mehta S, Vemuganti R
Transl Stroke Res
. 2021 Jul;
13(1):1-11.
PMID: 34224107
RNA is more than just a combination of four genetically encoded nucleobases as it carries extra information in the form of epitranscriptomic modifications. Diverse chemical groups attach covalently to RNA...
17.
Mehta S, Chokkalla A, Kim T, Bathula S, Chelluboina B, Morris-Blanco K, et al.
Stroke
. 2021 May;
52(7):2381-2392.
PMID: 33940958
Background And Purpose: Stroke induces the expression of several long noncoding RNAs in the brain. However, their functional significance in poststroke outcome is poorly understood. We recently observed that a...
18.
Chandran R, Mehta S, Vemuganti R
Neuromolecular Med
. 2021 Jan;
23(3):344-347.
PMID: 33486699
Following traumatic brain injury (TBI), increased production of reactive oxygen species (ROS) and the ensuing oxidative stress promotes the secondary brain damage that encompasses both grey matter and white matter....
19.
Chokkalla A, Mehta S, Vemuganti R
J Cereb Blood Flow Metab
. 2020 Sep;
40(12):2331-2349.
PMID: 32967524
Cellular RNAs are pervasively tagged with diverse chemical moieties, collectively called epitranscriptomic modifications. The methylation of adenosine at N position generates N-methyladenosine (mA), which is the most abundant and reversible...
20.
Chelluboina B, Kim T, Mehta S, Kim J, Bathula S, Vemuganti R
Stroke
. 2020 Aug;
51(10):3138-3141.
PMID: 32819195
Background And Purpose: Increased expression of α-Syn (α-Synuclein) is known to mediate secondary brain damage after stroke. We presently studied if α-Syn knockdown can protect ischemic brain irrespective of sex...