: Researchers used Single-particle tracking (SPT) and deep learning-assisted analysis to observe individual molecules in real-time.
: Published by researchers using techniques like reflected light-sheet microscopy (RLSM). Key Findings and Methodology
: Single-molecule tracking of Nodal and Lefty in live zebrafish embryos Journal : Nature Communications Publication Date : October 15, 2022
While the scientific paper is the most direct link to that specific ID, the term could also refer to:
: The paper reveals that Nodal proteins (Cyclops and Squint) have significantly different mobility and residence times compared to their inhibitors (Lefty1 and Lefty2), which is critical for proper embryonic patterning. Other Possible Matches
: The study investigates how Nodal and Lefty morphogens move and interact within the extracellular space of developing zebrafish embryos to form concentration gradients.
The identifier corresponds to the final segment of its Digital Object Identifier (DOI) : 10.1038/s41467-022-33704-z . Paper Overview
33704mp4 Apr 2026
: Researchers used Single-particle tracking (SPT) and deep learning-assisted analysis to observe individual molecules in real-time.
: Published by researchers using techniques like reflected light-sheet microscopy (RLSM). Key Findings and Methodology 33704mp4
: Single-molecule tracking of Nodal and Lefty in live zebrafish embryos Journal : Nature Communications Publication Date : October 15, 2022 : Researchers used Single-particle tracking (SPT) and deep
While the scientific paper is the most direct link to that specific ID, the term could also refer to: Other Possible Matches : The study investigates how
: The paper reveals that Nodal proteins (Cyclops and Squint) have significantly different mobility and residence times compared to their inhibitors (Lefty1 and Lefty2), which is critical for proper embryonic patterning. Other Possible Matches
: The study investigates how Nodal and Lefty morphogens move and interact within the extracellular space of developing zebrafish embryos to form concentration gradients.
The identifier corresponds to the final segment of its Digital Object Identifier (DOI) : 10.1038/s41467-022-33704-z . Paper Overview