Metabolomics highlights different life history strategies of white and brown rot wood-degrading fungi
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi.
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - Msphere, 2022 - europepmc.org
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
[PDF][PDF] Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - 2022 - researchgate.net
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - mSphere, 2022 - Elsevier
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - mSphere, 2022 - osti.gov
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu… - mSphere, 2022 - search.proquest.com
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
[HTML][HTML] Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - mSphere, 2022 - ncbi.nlm.nih.gov
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics highlights different life history strategies of white and brown rot wood-degrading fungi.
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - 2022 - cabidigitallibrary.org
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JD Castaño, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - 2022 - agris.fao.org
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …
Metabolomics Highlights Different Life History Strategies of White and Brown Rot Wood-Degrading Fungi
JDC Uruena, N Muñoz-Muñoz, YM Kim, J Liu, L Yang… - mSphere, 2022 - experts.umn.edu
White and brown rot fungi efficiently deconstruct lignocellulose in wood, Earth's largest pool
of aboveground biotic carbon and an important natural resource. Despite its vital …
of aboveground biotic carbon and an important natural resource. Despite its vital …