[HTML][HTML] Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang, G Sun - BMC genomics, 2017 - Springer
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang… - BMC Genomics, 2017 - search.proquest.com
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche.
B Wang, X Liang, ML Gleason, R Zhang, G Sun - BMC Genomics, 2017 - europepmc.org
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche.
B Wang, X Liang, ML Gleason, R Zhang… - BMC …, 2017 - search.ebscohost.com
Background: Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang… - BMC …, 2017 - pubmed.ncbi.nlm.nih.gov
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche.
WB Wang Bo, LXF Liang XiaoFei, ML Gleason… - 2017 - cabidigitallibrary.org
Background: Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
[HTML][HTML] Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason… - BMC …, 2017 - bmcgenomics.biomedcentral.com
Ectophytic fungi occupy the waxy plant surface, an extreme environment characterized by
prolonged desiccation, nutrient limitation, and exposure to solar radiation. The nature of …
prolonged desiccation, nutrient limitation, and exposure to solar radiation. The nature of …
Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang, G Sun - BMC Genomics, 2017 - go.gale.com
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
[HTML][HTML] Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang, G Sun - BMC Genomics, 2017 - ncbi.nlm.nih.gov
Background Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
[PDF][PDF] Genome sequence of the ectophytic fungus Ramichloridium luteum reveals unique evolutionary adaptations to plant surface niche
B Wang, X Liang, ML Gleason, R Zhang, G Sun - 2017 - researchgate.net
Background: Ectophytic fungi occupy the waxy plant surface, an extreme environment
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …
characterized by prolonged desiccation, nutrient limitation, and exposure to solar radiation …