Department Of Botany

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Author: search.filters.author.Yadav, RenuHas files: Yes

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    Preconditioning of chickpea seedlings for terminal heat stress: understanding associated mechanism and HSP's expression
    (Central University of Punjab, 2014) Yadav, Renu; Kumar, Sanjeev
    Chickpea (Cicer arietinium L.) is the second most important pulse crop grown worldwide. Changes in the cropping system, competition from other cash crops (wheat) and global warming are pushing chickpea to relatively warmer growing environment. In northern part of country chickpea come across with terminal high temperature stress during reproductive stage which lead to reduced grain yield. Therefore to prevent the plant from incoming heat stress, 11 day chickpea seedling were preconditioned with mild drought stress, then put on recovery for six days and then recovered seedlings were exposed to lethal stress (where temperature was increased step wise from 30?C to 36?C). This study revealed that % EL, Lipid peroxidation increased with the increase in temperature while percent TTC reduction and total protein content decreased with the increase in temperature. Antioxidative enzymes provide the major defence against the ROS generated during the abiotic stress, and it was found that activity of SOD, CAT and APX enzyme increased proportionately with the rising temperature. HSP's act as molecular chaperons and are over expressed at both mRNA and protein level in preconditioned seedlings exposed to high temperature stress as compared to non- preconditioned ones. To conclude the whole study, results obtained clearly reveal that preconditioning with drought stress has the ability to improve tolerance above ambient temperature (27?C 7?C), thereafter preconditioning did not have any influence in terms of the improvement in membrane damage and level of antioxidants. Higher expression of sHSP's is corroborated with the low expression of antioxidants.
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    Drought and heat tolerance in chickpea: Transcriptome and morphophysiological changes under individual and combined stress
    (Springer India, 2017) Yadav, Renu; Juneja, Sumandeep; Singh, Priyanka; Kumar, Sanjeev
    Increase in global temperature due to climate change is the major concern and known to have detrimental effect on many agricultural crops. Chickpea (Cicer arietinum L.) is an important legume grown in the arid and semiarid region of the world. Chickpea being a heat sensitive crop is greatly affected by heat stress during both vegetative and reproductive stages. Stress resistance mechanism of chickpea involves signal perception, transduction, and subsequent activation of stress-responsive genes encoding reactive oxygen species (ROS) scavenging and osmolyte, chaperones, and aquaporins. There are different stress perception and signaling pathways, both in drought and high-temperature stress, but some common pathways also exist between the two mechanisms. The present chapter summarizes the cross talk between the drought and heat stress and the molecular mechanism underlying individual stress. Field plants are exposed to multiple stresses, and the combined effect might be antagonistic or synergistic. Hence, improving stress tolerance of plants requires a reevaluation, taking into account the effect of multiple stresses on plant metabolism and stress resistance. ? Springer (India) Pvt. Ltd. 2017. All rights reserved.