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 Studies on adaptive environmental responses in Himalayan Rhododendron arboreum(Central University of Punjab, 2019) Choudhary, Shruti; Bhardwaj, PankajTemperate plants acclimatize to survive freezing temperatures, which are otherwise prerequisite in the initiation/transition of a developmental phase. The dominance of Rhododendron arboreum under a highly fluctuating Himalayan environment makes it enticing for genetic structure and functional analysis. In the present study, transcript, small RNA and metabolome libraries from flowers and foliar tissues of reproductive and vegetative seasons were analyzed. The high-quality paired-end reads were assembled into 157,427 non-redundant transcripts and categorized functionally based on gene ontology, pathway, and transcription factor database. The screening for molecular markers identified 35,419 SSR and 811 high-quality SNPs. A comparison of transcript profiles for the vegetative and flowering season tissues revealed that 12,577 unigenes with fluctuating expression were responsible for seasonal adaptations. Additional to the gene interaction networks, 421 ions obtained from LC-MS were annotated to distinct pathways, especially secondary metabolites. Thirdly, 466 conserved and novel miRNAs, 442 precursors, and 27,139 targets were predicted and the miRNAs modulating circadian clock and reproductive development were discussed further. Other than the genes, miRNAs, and compounds held for an active metabolism, signaling, development, and their regulations, supplementary responses to abiotic/biotic stimuli were induced. A multifaceted response not only sponsored the climatic encounters but brought the shift from vegetative to reproductive growth. The genome-wide profiling and the spatiotemporal variation in mRNA and miRNA expression, as well as the nontargeted metabolome, will enhance the understanding of development and tolerance strategies in high altitude tree species.Item Adaptability of Rhododendrons in high altitude habitats(Northeast Forestry University, 2020) Choudhary S.; Thakur S.; Majeed A.; Bhardwaj P.Tree 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.Item Flavonoid Secondary Metabolite: Biosynthesis and Role in Growth and Development in Plants(Springer, 2018) Kumar, Vinay; Suman, Upsana; Rubal; Yadav, Sudesh Kumar