Botany - Research Publications
Permanent URI for this collectionhttps://kr.cup.edu.in/handle/32116/32
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Item Adaptability of Rhododendrons in high altitude habitats(Northeast Forestry University, 2020-01-03T00:00:00) Choudhary, Shruti; Thakur, Sapna; Majeed, Aasim; Bhardwaj, PankajTree species dominate many ecosystems throughout the world and their response to climate, in light of global warming, is a matter of primary concern. This review describes past and ongoing research in Rhododendron, an ecologically important and well-adapted genus of more than 1000 species, occupying diverse habitats. Research to date indicates survival ability and mechanisms, with an emphasis on cold tolerance. The capability of long-distance gene flow in these species increases their genetic variability which in turn enhances their adaptability to newer niches as well as to environmental gradients (mainly temperature). Attempts to explain the molecular basis of morphological and behavioural changes in Rhododendron against cold-induced damage has been made. Gradual advances in �omics� have led to an enriched genomic resource dissecting the role and interaction of multiple molecular factors participating in cold adaptability. However, fewer genetic studies are available on species with an inherent or a default cold-tolerance ability. Considering this fact, understanding specific features of an adapted species can provide insights on overriding the effects of desiccation and determining phase transitions in other plants as well. We propose to integrate ecological and evolutionary studies with functional genomics to improve predictions of tree responses to their environment. � 2020, Northeast Forestry University.Item Adaptability of Rhododendrons in high altitude habitats(Northeast Forestry University, 2020-01-03T00:00:00) Choudhary, Shruti; Thakur, Sapna; Majeed, Aasim; Bhardwaj, PankajTree species dominate many ecosystems throughout the world and their response to climate, in light of global warming, is a matter of primary concern. This review describes past and ongoing research in Rhododendron, an ecologically important and well-adapted genus of more than 1000 species, occupying diverse habitats. Research to date indicates survival ability and mechanisms, with an emphasis on cold tolerance. The capability of long-distance gene flow in these species increases their genetic variability which in turn enhances their adaptability to newer niches as well as to environmental gradients (mainly temperature). Attempts to explain the molecular basis of morphological and behavioural changes in Rhododendron against cold-induced damage has been made. Gradual advances in �omics� have led to an enriched genomic resource dissecting the role and interaction of multiple molecular factors participating in cold adaptability. However, fewer genetic studies are available on species with an inherent or a default cold-tolerance ability. Considering this fact, understanding specific features of an adapted species can provide insights on overriding the effects of desiccation and determining phase transitions in other plants as well. We propose to integrate ecological and evolutionary studies with functional genomics to improve predictions of tree responses to their environment. � 2020, Northeast Forestry University.Item Comparative transcriptome profiling reveals the reprogramming of gene networks under arsenic stress in Indian mustard.(Canadian Science Publishing, 2019) Thakur, Sapna; Choudhary, Shruti; Dubey, Preeti; Bhardwaj, PankajArsenic is a widespread toxic metalloid that is classified as a class I carcinogen known to cause adverse health effects in humans. In the present study, we investigated arsenic accumulation potential and comparative gene expression in Indian mustard. The amount of arsenic accumulated in shoots varied in the range of 15.99-1138.70 mg/kg on a dry weight basis among five cultivars. Comparative expression analysis revealed 10?870 significantly differentially expressed genes mostly belonging to response to stress, metabolic processes, signal transduction, transporter activity, and transcription regulator activity to be up-regulated, while most of the genes involved in photosynthesis, developmental processes, and cell growth were found to be down-regulated in arsenic-treated tissues. Further, pathway analysis using the KEGG Automated Annotation server (KAAS) revealed a large-scale reprogramming of genes involved in genetic and environmental information processing pathways. Top pathways with maximum KEGG orthology hits included carbon metabolism (2.5%), biosynthesis of amino acids (2.1%), plant hormone signal transduction (1.4%), and glutathione metabolism (0.6%). A transcriptomic investigation to understand the arsenic accumulation and detoxification in Indian mustard will not only help to improve its phytoremediation efficiency but also add to the control measures required to check bioaccumulation of arsenic in the food chain.Item Gene and metabolite profiling reveals flowering and survival strategies in Himalayan Rhododendron arboreum(Elsevier, 2019) Choudhary, Shurti; Thakur, Sapna; Jaitak, Vikas; Bhardwaj, PankajRhododendron arboreum inhabits the Himalayan climate otherwise detrimental to many species, though the underlying survival mechanism remains unclear. Such temperate species have an inherent endurance towards freezing temperature which is prerequisite for an initiation and transition to flowering phase. Orchestrating the molecular architecture is vital towards managing distinct abiotic signals. To determine the molecular factors directing growth, development, and tolerance under environmental extremes in the species, the high-throughput transcriptome and metabolome data from vegetative as well as cold-acclimatized flowering season tissues were generated. Firstly, the de novo assembly pertaining to the foliar and floral tissues comprising of 157,427 unigenes was examined for a comparative analysis. 4149 of 12,577 transcripts observed with a significant fluctuating expression corresponded to seasonal retorts. Following the interactive network, 525 genes were distinguished as the epicenters of sense, response, and tolerance. Secondly, liquid chromatography coupled to mass spectrometry was adopted to profile the extent of metabolite richness across the tissues of two seasons. Taking into account the formula-based mappings offered by MetaboSearch tool, 421 unique ions obtained were annotated to 173 KEGG compounds, especially secondary metabolites. Moreover, by integrating the transcript and metabolite annotations, it was found that right from active metabolism, signaling, development, and their regulations, supplementary response to abiotic/biotic stimuli was induced. A multifaceted response displayed during flowering not only sponsored the climatic encounters but brought the shift from vegetative to reproductive growth. Overall, this comprehensive approach following transcriptome and non-targeted metabolome elucidated the contribution of genetic and metabolic factors in environmental responses