OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
Ugandan healers near Rwenzori Mountains use 95 plants as medicine
OpenAlex:
Color phenotyping and genome-wide association studies of ...
OpenAlex:
FUNCTIONAL STUDIES ON SIEVE ELEMENT-SPECIFIC PROTEINS
OpenAlex:
Understanding the control of perpetual flowering and cont...
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
Artificial Intelligence in Plant Sciences
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
The protein turnover and trafficking of Chlamyopsin6 is regulated by IFT88 and IFT52 in the Chlamydomonas reinhardtii.
PubMed · 2026-05-27
Scientists discovered how a light-sensitive protein in green algae gets shuttled to specific locations inside the cell — findings that could improve how researchers use light to control biological processes in living systems.
1
Chlamyopsin5 localizes primarily to the eyespot and its trafficking is independent of the IFT (intraflagellar transport) machinery
2
Chlamyopsin6 localizes to both the flagella and eyespot, and its delivery to the flagella requires the IFT transport system
3
IFT88 and IFT52 stabilize Chlamyopsin6 protein turnover, while IFT20 physically interacts with Chlamyopsin6