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Analyses of Anandamide-Mediated Growth Inhibition in Physcomitrella PatensChilufya, Jedaidah, Kilaru, Aruna 01 January 2016 (has links)
No description available.
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Biochemical Characterization of Fatty Acid Amide Hydrolase in Physcomitrella PatensSwati, Swati, Kilaru, Aruna 08 April 2015 (has links)
N-acylethanolamines (NAEs) are a group of fatty acid ethanolamides and their metabolic pathway is highly conserved in eukaryotes. However, metabolites such as NAE 20:4 (anandamide) are known to occur in mammalian systems but not in higher plants. Anandamide is an endocannabinoid receptor ligand and mediates stress responses and regulates various physiological processes such as neuroprotection, pain perception and appetite suppression in animals. Interestingly anandamide occurrence was recently reported in a highly stress tolerant early land plant, Physcomitrella patens but its physiological role remains to be elucidated. Since NAEs including anandamide are degraded by fatty acid amide hydrolase (FAAH), it is hypothesized that a functional homolog of FAAH occurs in P. patens. To test this hypothesis, arabidopsis FAAH homolog was used to search moss database using BLASTP. Eight putative FAAH candidates (PpFAAH1-8), with an amidase signature sequence and conserved catalytic sites, were identified. Among these, PpFAAH1 and PpFAAH2 responded to exogenous NAE, and their 3D predicted protein structure closely resembled to that of AtFAAH1. The 1.8Kb coding region of putative PpFAAH1 was chosen for further characterization and was PCR amplified, cloned into TrcHis2 expression vector and transformed into E. coli TOP10 cells. Upon confirmation of the positive clones and induction of proteins, expressed proteins will be purified by Ni+2 affinity column chromatography, confirmed by western blot and analyzed for its substrate specificity using radiolabelled anandamide. Lipids extracted from reaction mixture will be separated by thin layer chromatography and detected by radiometric scanning. Characterization of the enzyme that hydrolyzes anandamide in moss is expected to lead us to develop NAE metabolite mutants that will subsequently allow us to study the physiological role of anandamide in early land plants.
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Determination of Fatty Acid Composition in Physcomitrella PatensMohensi, Kousha, Kilaru, Aruna 07 April 2015 (has links)
No description available.
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Biochemical Characterization of Fatty Acid Amide Hydrolase in Physcomitrella PatensSwati, Swati, Kilaru, Aruna 01 January 2015 (has links)
No description available.
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Occurrence and Implications of Anandamide (A Mammalian Neurotransmitter) in the Moss, Physcomitrella PatensSante, Richard, Shiva, S., Welti, Ruth, Kilaru, Aruna 29 March 2014 (has links)
No description available.
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Lipid Profile Reveals Occurrence of Anandamide (A Mammalian Neurotransmitter) in PhyscomitrellaSante, Richard, Kilaru, Aruna 04 April 2013 (has links)
Improving crop yield by generating stress tolerant plants is the enduring objective of this research. A small class of bioactive fatty acid derivatives, N-acylethanolamines (NAEs), including anandamide (NAE 20:4), an endocannabinoid receptor ligand, affects a wide range of physiological and behavioral functions in animals. In plants, NAEs to the exclusion of anandamide are found to be ubiquitous and abundant in seed tissues and are shown to be involved in mediating abscisic acid (ABA) -dependent or -independent stress responses. Early land plants such as Physcomitrella patens (moss) have been shown to tolerate abiotic stresses. We hypothesized that NAEs are involved in mediating stress responses in moss. Gas chromatography-mass spectrometry was employed in NAE detection and quantification in moss. Selective lipidomic approach revealed novel NAE metabolites. The endocannabinoid receptor ligand anandamide and its precursor molecules were detected and quantified. Exogenous treatment of NAE 12:0, NAE 20:4 and ABA showed a growth inhibitory effect for all three metabolites. NAE 20:4 was more potent than NAE 12:0 to degrees similar to the plant hormone ABA. In silico analyses of NAE catabolizing enzyme fatty acid amide hydrolase from Arabidopsis showed eight putative FAAH candidates in this moss. Candidates showed high similarities with plants as well as animal FAAH proteins. Primers specific to NAE pathway genes have been designed for expression analysis. Our recent identification of the ligand NAE 20:4 in this moss, provides us with a unique opportunity to address if 1) early land plants, such as mosses, retained the endocannabinoid signaling mechanism that is akin to animals but not to plants and 2) if such distinctive NAE profile and mechanism by which it may function in moss plant is responsible, in part, for their natural ability to resist high temperatures, dehydration, osmotic and salt stresses. Insights into unique lipids composition and signaling pathways that mosses acquire naturally, during their successful transition from water to land, may lead to development of tools necessary to enhance abiotic stress tolerance in vegetative tissues of higher plants and thus contribute to improvement of crop productivity.
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Identification and Characterization of Fatty Acid Amide Hydrolase (FAAH) in Physcomitrella PatensKinser, Brent, Kilaru, Aruna 01 January 2013 (has links)
No description available.
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Identification and Characterization of Fatty Acid Amide Hydrolase (FAAH) in Physcomitrella PatensKinser, Brent, Kilaru, Aruna 01 January 2013 (has links)
No description available.
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Novel Polyunsaturated N-acylethanolamines and Their Implications in Physcomitrella patensShinde, S., Welti, R., Kilaru, Aruna 01 January 2018 (has links)
No description available.
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An Integrated Analysis of mRNA and lncRNA Expression Profile in Response to an Endocannabinoid in Physcomitrella patensHaq, Imdadul, Kilaru, Aruna 01 January 2020 (has links)
No description available.
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