#scipdb search results
Excited to share that I delivered an oral presentation at MIPAM 2025 (Molecular Intricacies of Plant Associated Microorganisms) at IIT Mandi. #MIPAM2025 #IITMandi #SCIPDb #skmasakapalli #NIPGR
A reproducible, field-based "sick plot" protocol for dry root rot in chickpea is here. 🔍Macrophomina phaseolina ✅Enriched inoculum ✅Soil moisture variation ✅Large-scale phenotyping Read the methodology: doi.org/10.1002/aps3.1… #Legumes #SCIPdb #MuthappaSenthilKumar #NIPGR
🌿A study reveals drought weakens plant immunity by suppressing CBP60g/SARD1 via the ABA pathway. Combined stress (drought + bacteria) = reduced defence in Arabidopsis 🧬 NPR3/4 also involved in suppression. Read more: doi.org/10.1111/pce.14… #SCIPdb #MuthappaSenthilKumar #NIPGR
🧬How do plants move sugar? Our research shows how AtSWEET11 & AtSWEET12 transporters work synergistically in Arabidopsis to regulate sugar flow during growth & stress. 📊 Includes docking + phylogenetic analysis across 39 crops! 🔗 doi.org/10.1101/2022.0… #SWEETs #SCIPdb #NIPGR
💡Did you know gene silencing can help us understand plant functions better—and even improve crop traits? Check out our book chapter: “Recent Advances in Plant Gene Silencing Methods” 🌾 🔗link.springer.com/protocol/10.10… #SCIPdb #MuthappaSenthilKumar #NIPGR
A research shows how drought stress accelerates dry root rot in chickpea by weakening root defenses & enhancing Macrophomina invasion. 🦠🌱 A step forward in breeding for climate resilience in legumes. 🔗 doi.org/10.1094/MPMI-0… #PlantDisease #SCIPdb #MuthappaSenthilKumar #NIPGR
🌱The insights into chickpea defense! CaProDH2-mediated proline metabolism enhances resistance to Ascochyta rabiei under drought Fine-tuning the proline–P5C–ROS pathway may hold the key to stress resilience. Read more: doi.org/10.1101/2021.0… #SCIPdb #MuthappaSenthilKumar #NIPGR
Low soil moisture makes chickpea crops more vulnerable to Dry Root Rot disease. 🌱☀️ Using AI-based modeling, researchers achieved 84.6% prediction accuracy for DRR incidence. 👉 Read more: doi.org/10.1038/s41598… #Chickpea #ClimateImpact #SCIPdb #MuthappaSenthilKumar #NIPGR
India’s crops face a perfect storm: evolving pests, pathogens & climate change. The real threat? Combined stresses — working together to devastate yields. This article highlights urgent need for research in this area. 👉jstor.org/stable/27310453 #SCIPdb #MuthappaSenthilKumar #NIPGR
A study shows dry root rot worsens when both stresses hit, especially in susceptible genotypes. ✔️ DRR linked to poor root water relations ✔️ Heat shifts infection dynamics ✔️ Drought-tolerant plants fare better 🔗 doi.org/10.3389/fpls.2… #SCIPdb #MuthappaSenthilKumar #NIPGR
How does a weed resist a deadly fungus? Parthenium hysterophorus blocks Macrophomina phaseolina from colonizing roots—thanks to induced post-invasive defenses. A step toward durable dry root rot resistance in chickpea? Read more: doi.org/10.1016/j.enve… #SCIPdb #NIPGR
🔥As climate change intensifies, so does Dry Root Rot in chickpeas. This silent destroyer, triggered by drought, is a growing global threat. Learn the science behind the spread & how we can protect future harvests. 🔗 doi.org/10.1094/PDIS-0… #SCIPdb #MuthappaSenthilKumar #NIPGR
🚀 Tackling abiotic stress in plants just got easier. Explore a new high-throughput method using silenced leaf disks to study gene function under multiple stresses. Fast, efficient & scalable!🌿 Read More: link.springer.com/protocol/10.10… #SCIPdb #MuthappaSenthilKumar #NIPGR #plants
Plant viruses don’t infect every species they encounter. Why? Because of non-host resistance (NHR)—a powerful, broad-spectrum defense mechanism. Our article unpacks the genetics & mechanisms behind NHR. Read more: doi.org/10.7717/peerj.…… #SCIPdb #MuthappaSenthilKumar #NIPGR
How does a weed resist a deadly fungus? Parthenium hysterophorus blocks Macrophomina phaseolina from colonizing roots—thanks to induced post-invasive defenses. A step toward durable dry root rot resistance in chickpea? Read more: doi.org/10.1016/j.enve… #SCIPdb #NIPGR
Low soil moisture makes chickpea crops more vulnerable to Dry Root Rot disease. 🌱☀️ Using AI-based modeling, researchers achieved 84.6% prediction accuracy for DRR incidence. 👉 Read more: doi.org/10.1038/s41598… #Chickpea #ClimateImpact #SCIPdb #MuthappaSenthilKumar #NIPGR
India’s crops face a perfect storm: evolving pests, pathogens & climate change. The real threat? Combined stresses — working together to devastate yields. This article highlights urgent need for research in this area. 👉jstor.org/stable/27310453 #SCIPdb #MuthappaSenthilKumar #NIPGR
🌱The insights into chickpea defense! CaProDH2-mediated proline metabolism enhances resistance to Ascochyta rabiei under drought Fine-tuning the proline–P5C–ROS pathway may hold the key to stress resilience. Read more: doi.org/10.1101/2021.0… #SCIPdb #MuthappaSenthilKumar #NIPGR
A reproducible, field-based "sick plot" protocol for dry root rot in chickpea is here. 🔍Macrophomina phaseolina ✅Enriched inoculum ✅Soil moisture variation ✅Large-scale phenotyping Read the methodology: doi.org/10.1002/aps3.1… #Legumes #SCIPdb #MuthappaSenthilKumar #NIPGR
🔥As climate change intensifies, so does Dry Root Rot in chickpeas. This silent destroyer, triggered by drought, is a growing global threat. Learn the science behind the spread & how we can protect future harvests. 🔗 doi.org/10.1094/PDIS-0… #SCIPdb #MuthappaSenthilKumar #NIPGR
💡Did you know gene silencing can help us understand plant functions better—and even improve crop traits? Check out our book chapter: “Recent Advances in Plant Gene Silencing Methods” 🌾 🔗link.springer.com/protocol/10.10… #SCIPdb #MuthappaSenthilKumar #NIPGR
🧬How do plants move sugar? Our research shows how AtSWEET11 & AtSWEET12 transporters work synergistically in Arabidopsis to regulate sugar flow during growth & stress. 📊 Includes docking + phylogenetic analysis across 39 crops! 🔗 doi.org/10.1101/2022.0… #SWEETs #SCIPdb #NIPGR
Plant viruses don’t infect every species they encounter. Why? Because of non-host resistance (NHR)—a powerful, broad-spectrum defense mechanism. Our article unpacks the genetics & mechanisms behind NHR. Read more: doi.org/10.7717/peerj.…… #SCIPdb #MuthappaSenthilKumar #NIPGR
🌿A study reveals drought weakens plant immunity by suppressing CBP60g/SARD1 via the ABA pathway. Combined stress (drought + bacteria) = reduced defence in Arabidopsis 🧬 NPR3/4 also involved in suppression. Read more: doi.org/10.1111/pce.14… #SCIPdb #MuthappaSenthilKumar #NIPGR
A study shows dry root rot worsens when both stresses hit, especially in susceptible genotypes. ✔️ DRR linked to poor root water relations ✔️ Heat shifts infection dynamics ✔️ Drought-tolerant plants fare better 🔗 doi.org/10.3389/fpls.2… #SCIPdb #MuthappaSenthilKumar #NIPGR
A research shows how drought stress accelerates dry root rot in chickpea by weakening root defenses & enhancing Macrophomina invasion. 🦠🌱 A step forward in breeding for climate resilience in legumes. 🔗 doi.org/10.1094/MPMI-0… #PlantDisease #SCIPdb #MuthappaSenthilKumar #NIPGR
How do plants move sugar? 🌿 Our study shows how AtSWEET11 & AtSWEET12 team up to transport sucrose in Arabidopsis and beyond! 🔍 Structural insights + cross-species analysis in 39 crops Read more 👉doi.org/10.1002/pld3.4… #SWEETtransporters #SCIPdb #MuthappaSenthilKumar #NIPGR
🌱 Drought makes root rot worse in chickpeas. A study reveals how drought intensifies a DRR–wilt disease complex, slashing yields up to 60%. Drought-tolerant genotypes & hormonal defenses offer hope. 🔗 doi.org/10.1016/j.fcr.… #PlantPathology #SCIPdb #MuthappaSenthilKumar #NIPGR
Review Alert! "Dry Root Rot Disease: Current Status & Future Implications for Chickpea Production" 🌱 📉 DRR + drought = major yield losses in India 🌡️ Climate change worsening the impact 🔗 Read more: doi.org/10.1007/s40011… #Chickpea #SCIPdb #MuthappaSenthilKumar #NIPGR
link.springer.com
Dry root rot disease: Current status and future implications for chickpea production
Proceedings of the National Academy of Sciences, India Section B: Biological Sciences - Chickpea is one of the most important food legumes in the world. Several abiotic and biotic factors limit...
Excited to share that I delivered an oral presentation at MIPAM 2025 (Molecular Intricacies of Plant Associated Microorganisms) at IIT Mandi. #MIPAM2025 #IITMandi #SCIPDb #skmasakapalli #NIPGR
🌱 Exciting News for Agricultural Scientists! 🌿 The #SCIPdb from #NIPGR stole the spotlight at #NCPP2023 organized by #ISPP at #IARI New Delhi. 🌍 Engage with this invaluable #stressbiology resource to elevate your #plant stress #research! 🧑🔬Let's develop #ClimateSmart #Crops🌾
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