Muthappa Senthil-Kumar

Overview

Explore the profile of Muthappa Senthil-Kumar including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 75

Citations 2250

Followers 0

Related Specialties

Biology

Molecular Biology

Science

Top 10 Co-Authors

Kirankumar S Mysore

Venkategowda Ramegowda

Makarla Udayakumar

Vadivelmurugan Irulappan

Prachi Pandey

Seonghee Lee

Hee-Kyung Lee

Urooj Fatima

Clemencia M Rojas

Aarti Gupta

Published In

Front Plant Sci

Sci Rep

Methods Mol Biol

Plant Cell Environ

PLoS One

Affiliations

Soon will be listed here.

Recent Articles

11.

Functional role of formate dehydrogenase 1 (FDH1) for host and nonhost disease resistance against bacterial pathogens

Lee S, Vemanna R, Oh S, Rojas C, Oh Y, Kaundal A, et al.

PLoS One . 2022 May; 17(5):e0264917. PMID: 35594245

Nonhost disease resistance is the most common type of plant defense mechanism against potential pathogens. In the present study, the metabolic enzyme formate dehydrogenase 1 (FDH1) was identified to associate...

12.

Corrigendum for "Drought attenuates plant defence against bacterial pathogens by suppressing the expression of CBP60g/SARD1 during combined stress"

Choudhary A, Senthil-Kumar M

Plant Cell Environ . 2022 May; 45(6):1962. PMID: 35546487

No abstract available.

13.

A spotlight on non-host resistance to plant viruses

Rai A, Sivalingam P, Senthil-Kumar M

PeerJ . 2022 Apr; 10:e12996. PMID: 35382007

Plant viruses encounter a range of host defenses including non-host resistance (NHR), leading to the arrest of virus replication and movement in plants. Viruses have limited host ranges, and adaptation...

14.

High-Throughput Analysis of Gene Function under Multiple Abiotic Stresses Using Leaf Disks from Silenced Plants

Yamunarani R, Ramegowda V, Senthil-Kumar M, Mysore K

Methods Mol Biol . 2022 Mar; 2408:181-189. PMID: 35325423

The high throughputness and affordability of "omics" technologies is leading to the identification of a large number of abiotic stress genes, with many of them responsive to multiple stresses. In...

15.

Recent Advances in Plant Gene Silencing Methods

Pandey P, Mysore K, Senthil-Kumar M

Methods Mol Biol . 2022 Mar; 2408:1-22. PMID: 35325413

With the increasing understanding of fundamentals of gene silencing pathways in plants, various tools and techniques for downregulating the expression of a target gene have been developed across multiple plant...

16.

Drought Stress Exacerbates Fungal Colonization and Endodermal Invasion and Dampens Defense Responses to Increase Dry Root Rot in Chickpea

Irulappan V, Kandpal M, Saini K, Rai A, Ranjan A, Sinharoy S, et al.

Mol Plant Microbe Interact . 2022 Mar; 35(7):583-591. PMID: 35253477

Drought plays a central role in increasing the incidence and severity of dry root rot (DRR) disease in chickpea. This is an economically devastating disease, compromising chickpea yields particularly severely...

17.

Drought attenuates plant defence against bacterial pathogens by suppressing the expression of CBP60g/SARD1 during combined stress

Choudhary A, Senthil-Kumar M

Plant Cell Environ . 2022 Feb; 45(4):1127-1145. PMID: 35102557

In nature, plants are frequently exposed to drought and bacterial pathogens simultaneously. However, information on how the drought and defence pathways interact and orchestrate global transcriptional regulation is limited. Here,...

18.

The ins and outs of SWEETs in plants: Current understanding of the basics and their prospects in crop improvement

Anjali A, Fatima U, Senthil-Kumar M

J Biosci . 2021 Nov; 46. PMID: 34785627

Sugar will eventually be exported transporters (SWEETs), a newly discovered class of sugar transporters, play a significant role in sugar efflux processes across various kingdoms of life. In fact, SWEETs...

19.

Dry Root Rot of Chickpea: A Disease Favored by Drought

Rai A, Irulappan V, Senthil-Kumar M

Plant Dis . 2021 Oct; 106(2):346-356. PMID: 34649462

Chickpea is an essential crop for protein nutrition and is grown around the world in rain-fed conditions. However, chickpea cultivation is under threat due to emerging diseases favored by drought...

20.

A sick plot-based protocol for dry root rot disease assessment in field-grown chickpea plants

Irulappan V, Mali K, Patil B, Manjunatha H, Muhammad S, Senthil-Kumar M

Appl Plant Sci . 2021 Sep; 9(8):e11445. PMID: 34504738

Premise: A comprehensive field-based screening protocol is lacking for dry root rot (DRR) disease in chickpea, which is caused by (formerly referred to as ). Here, we describe a protocol...