Publications by authors named "C Mathu Malar"
Article Synopsis
- Geosiphon pyriformis has a unique symbiotic relationship with cyanobacteria (Nostoc punctiforme) and bacterial endosymbionts (MRE) within specialized fungal cells.
- Recent genome analyses have been conducted to explore the biology of G. pyriformis, while the genomes of its endosymbionts are still largely unexplored.
- Metagenomic data from G. pyriformis bladders revealed significant gene expansions in the Nostoc endosymbiont and confirmed the monophyletic nature of MRE, showing distinct structural and content differences in their genomes, including enzymes for environmental sensing and stress response.
Arbuscular mycorrhizal fungi (AMF) are prominent root symbionts that can carry thousands of nuclei deriving from two parental strains in a large syncytium. These co-existing genomes can also vary in abundance with changing environmental conditions. Here we assemble the nuclear genomes of all four publicly available AMF heterokaryons using PacBio high-fidelity and Hi-C sequencing.
View Article and Find Full Text PDFBiosorption is a key phenomenon that has been used to remove the aquatic pollutants like dyes and heavy metals present in industrial effluents. The current study aims at the development of a chitosan-pectinase blend (CPB) to separate the methylene blue (MB) dye from its synthetic solution. Pectinase, an enzyme isolated from a consortium of Bacillus species, is imbibed in the blend.
View Article and Find Full Text PDFThe presence of urea in runoff from fertilized soil could be contributing to the growth of dangerous blooms. Enzymatic urea hydrolysis is a well-known outstanding process that, when integrated with nanotechnology, would be much more efficient. This research provides a novel perspective on magnetic nanobiocatalysts that reduce diffusion barriers in effective urea hydrolysis.
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