Biomechanics of hyphal growth
RR Lew - Biology of the Fungal Cell, 2019 - Springer
Fungi invade new territory by tubular extensions (hyphae) that ramify through the substrate
to form a mycelial network. The growth of the hyphae has physical components: The …
to form a mycelial network. The growth of the hyphae has physical components: The …
Biomechanics of Hyphal Growth
RR LEW - Biology of the Fungal Cell, 2019 - books.google.com
Fungi are a complex group of organisms, comprised of at least three related phylogenetic
clades. They are—for the most part—saprobes but can also be pathogens and symbiotic …
clades. They are—for the most part—saprobes but can also be pathogens and symbiotic …
Biomechanics of Hyphal Growth
RR LEW - 2019 - Springer
Fungi are a complex group of organisms, comprised of at least three related phylogenetic
clades. They are—for the most part—saprobes but can also be pathogens and symbiotic …
clades. They are—for the most part—saprobes but can also be pathogens and symbiotic …
[PDF][PDF] BIOMECHANICS OF HYPHAL GROWTH
RR Lew - yorku.ca
Fungi invade new territory by tubular extensions (hyphae) that ramify through the substrate
to form a mycelial network. The growth of the hyphae has physical components: The …
to form a mycelial network. The growth of the hyphae has physical components: The …
[PDF][PDF] BIOMECHANICS OF HYPHAL GROWTH
RR Lew - yorku.ca
Fungi invade new territory by tubular extensions (hyphae) that ramify through the substrate
to form a mycelial network. The growth of the hyphae has physical components: The …
to form a mycelial network. The growth of the hyphae has physical components: The …