The abstract in PubMed or at the publisher’s site is linked when available and will open in a new window. Papers deriving from NASA support:
Microgravity
Genomic Characterization of Microbacterium meiriae sp. nov., A Novel Bacterium Isolated From The International Space Station
During the microbial surveillance of the International Space Station (ISS) in April 2018, four Gram-stain positive bacterial strains, designated as F6_8S_P_2BT, F6_8S_P_3A, F6_8S_P_3B and F6_8S_P_3C, belonging to the genus Microbacterium […]
NASA Spaceline Current Awareness List #1,169 10 October 2025 (Space Life Science Research Results)
The abstract in PubMed or at the publisher’s site is linked when available and will open in a new window. Papers deriving from NASA support:
NASA Spaceline Current Awareness List #1,168 3 October 2025 (Space Life Science Research Results)
The abstract in PubMed or at the publisher’s site is linked when available and will open in a new window. Papers deriving from NASA support:
NASA Open Science Data Repository and Physical Sciences Informatics – Now Unified
The NASA Open Science Data Repository (OSDR) and Physical Sciences Informatics (PSI) provide open access to biological and physical science datasets from spaceflight and ground studies, enabling data reuse for […]
Rocket Test Proves Bacteria Survive Space Launch And Re-entry Unharmed
A world-first study has proven microbes essential for human health can survive the extreme forces of space launch.
NASA Spaceline Current Awareness List #1,167 26 September 2025 (Space Life Science Research Results)
The abstract in PubMed or at the publisher’s site is linked when available and will open in a new window.
New Research Shows How Plant Roots Bend And Growth Downward Toward Gravity
Scientists have uncovered how the plant hormone auxin helps roots bend and downwards towards gravity – a process called gravitropism – even after encountering obstacles in soil.
NASA Spaceline Current Awareness List #1,166 12 September 2025 (Space Life Science Research Results)
The abstract in PubMed or at the publisher’s site is linked when available and will open in a new window.
Impact of a High Magnetic Field on the Orientation of Gravitactic Unicellular Organisms
The gravity-dependent behavior of Paramecium biaurelia and Euglena gracilis have previously been studied on ground and in real microgravity.
