Publications by authors named "A Banares"
Article Synopsis
- The study introduces new species of fungi discovered in various environments, including leaves, soil, and dead organic matter across different countries.
- These fungi were identified based on their morphological features and DNA barcodes, confirming their uniqueness.
- The findings are documented in the publication "Fungal Planet description sheets," highlighting the diversity and ecological roles of the newly described fungi.
Novel species of fungi described in this study include those from various countries as follows: , from coastal sea sand. , on soil, on dead wood, from roots and leaves of and from capsules of , (incl. gen.
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- The xylose oxidative pathway (XOP) in engineered microorganisms is promising for producing various industrial compounds, but its efficiency is often limited by the toxic accumulation of D-xylonic acid, which affects cell growth and product formation.
- Strategies to mitigate D-xylonic acid accumulation include genetic engineering methods that enhance enzyme expression and optimize metabolic pathways, focusing particularly on bacterial strains.
- Understanding the causes of D-xylonic acid buildup is crucial for developing effective microbial cell factories, which can ultimately improve the production yields of valuable industrial products.
Novel species of fungi described in this study include those from various countries as follows: , from , from soil. , as endophyte from healthy leaves of , in fruit of , from stem of , on stems of , from rhizosphere soil of , on living leaves of , , and on living leaves of sp. , from soil.
View Article and Find Full Text PDFThe lignocellulosic sugar d-xylose has recently gained prominence as an inexpensive alternative substrate for the production of value-added compounds using genetically modified organisms. Among the prokaryotes, has become the host for the development of engineered microbial cell factories. The favored status of resulted from a century of scientific explorations leading to a deep understanding of its systems.
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