Articles
●
Cellular & Tissue Engineering
●
Spatial and temporal localization of SPIRRIG and WAVE/SCAR reveal roles for these proteins in actin-mediated root hair development.
Spatial and temporal localization of SPIRRIG and WAVE/SCAR reveal roles for these proteins in actin-mediated root hair development.
Cellular & Tissue Engineering
Abstractive Summary
Study examining spatial and temporal localization of spirrig and wave/scar. Microgravity profoundly affects plant biology, disrupting normal gravitropic responses while enhancing phototropism. Gene expression, cell wall structure, and reproductive processes are all modified. Understanding these adaptations is crucial for developing sustainable food production systems for long-duration space missions.
Extractive Summary
Study examining spatial and temporal localization of spirrig and wave/scar. Plant growth and development were significantly altered in microgravity conditions. Root gravitropism was disrupted with random directional growth. Phototropic responses remained functional but were enhanced. Gene expression patterns differed substantially from ground controls. Cell wall synthesis and structure were modified. Flowering time and reproductive success varied among species tested.
40
Keywords
spatial, temporal, localization, spirrig, wave, scar, reveal, roles, proteins, actin, growth, study, examining, spatial, temporal, localization, spirrig, wave, scar, plant, study, examining, spatial, temporal, localization, spirrig, wave, scar, microgravity, profoundly
Abstractive Keywords
study, examining, spatial, temporal, localization, spirrig, wave, scar, microgravity, profoundly
Extractive Keywords
growth, study, examining, spatial, temporal, localization, spirrig, wave, scar, plant
Topic Match Articles