Altered N-glycan composition impacts flagella-mediated adhesion in Chlamydomonas reinhardtii.
Nannan XuAnne OltmannsLongsheng ZhaoAntoine GirotMarzieh KarimiLara HoepfnerSimon KelterbornMartin ScholzJulia BeißelPeter HegemannOliver BäumchenLu-Ning LiuKai-Yao HuangMichael HipplerPublished in: eLife (2020)
For the unicellular alga Chlamydomonas reinhardtii, the presence of N-glycosylated proteins on the surface of two flagella is crucial for both cell-cell interaction during mating and flagellar surface adhesion. However, it is not known whether only the presence or also the composition of N-glycans attached to respective proteins is important for these processes. To this end, we tested several C. reinhardtii insertional mutants and a CRISPR/Cas9 knockout mutant of xylosyltransferase 1A, all possessing altered N-glycan compositions. Taking advantage of atomic force microscopy and micropipette force measurements, our data revealed that reduction in N-glycan complexity impedes the adhesion force required for binding the flagella to surfaces. This results in impaired polystyrene bead binding and transport but not gliding of cells on solid surfaces. Notably, assembly, intraflagellar transport, and protein import into flagella are not affected by altered N-glycosylation. Thus, we conclude that proper N-glycosylation of flagellar proteins is crucial for adhering C. reinhardtii cells onto surfaces, indicating that N-glycans mediate surface adhesion via direct surface contact.
Keyphrases
- biofilm formation
- induced apoptosis
- atomic force microscopy
- cell surface
- single cell
- crispr cas
- single molecule
- pseudomonas aeruginosa
- staphylococcus aureus
- cell cycle arrest
- cell therapy
- candida albicans
- escherichia coli
- binding protein
- genome editing
- stem cells
- oxidative stress
- electronic health record
- signaling pathway
- bone marrow
- dna binding
- cell proliferation
- cystic fibrosis
- mesenchymal stem cells
- transcription factor
- pi k akt
- amino acid