Just got what felt like my first generative AI reviewer at one of respected Cell Bio journals. Declined to revise (lost interest in this journal) and submitted to Genetics right away
Adding another link. www.cell.com/current-biol... #Devbio
The work was spearheaded by MSc student Mi Jing Khor, with support from PhD candidate Yuxuan Rain Xiong and undergrad Gagan Sangha.
The established chiral cadherin patch interacts asymmetrically with the contractile ring, likely driving its rightward closure, the first detectable leftβright asymmetry in C. elegans.
We showed that both ventral and leftβright asymmetric cadherin flows are required to generate a chiral cadherin patch pattern.
We found that cadherin at cellβcell contacts exhibits two distinct flows, such as ventral flow and leftβright asymmetric flow, each driven by ECM and RhoA signaling (left movie). The resulting cadherin patch pattern is chiral, meaning it cannot be superimposed on its mirror image
We used the 2nd mitosis of C. elegans as a model system, which shows both chiral cortical dynamics and L-R asymmetric closure of the contractile ring. Our past study shows that cell adhesion drives asymmetric ring closure in this cell type. www.nature.com/articles/s41...
New paper from the lab! Many animal cells exhibit chiral cell surface dynamics, which are proposed to drive leftβright asymmetric patterning. However, the molecular mechanisms linking these events remain unclear. authors.elsevier.com/a/1l%7E7B3QW...
