DLGR-1, a homolog of vertebrate DLGAP proteins, regulates spindle length and anaphase velocity during meiosis.

Chromosome segregation requires a large number of microtubule-binding proteins that mediate spindle assembly and function during mitosis and meiosis. BLAST revealed a single homolog of HURP/DLGAP5, a microtubule-binding protein that regulates mitotic and meiotic spindles in vertebrates. This homolog, W03A5.6 , was named DLGR-1 (DLGAP related). Time-lapse imaging of an endogenously tagged DLGR-1::GFP during meiosis revealed plasma membrane localization specifically during anaphase I and anaphase II when the meiotic spindle is closely apposed to the plasma membrane. Time-lapse imaging of microtubules and chromosomes during meiosis in a strain with a CRISPR deletion of the DLGR-1 coding sequence revealed metaphase spindles that were significantly shorter than controls and chromosome separation velocities that were significantly slower than controls. Extrusion of chromosomes into polar bodies proceeded normally, consistent with the high progeny viability of the homozygous deletion strain. Thus DLGR-1 may play an accessory or redundant role in meiotic spindle function during meiosis.