Stalk cell differentiation without polyketides in the cellular slime mold Yukie G. Sato Teresa Suarez Tamao Saito 10.6084/m9.figshare.3123355 https://tandf.figshare.com/articles/figure/Stalk_cell_differentiation_without_polyketides_in_the_cellular_slime_mold/3123355 <p>Polyketides induce prestalk cell differentiation in <i>Dictyostelium</i>. In the double-knockout mutant of the SteelyA and B polyketide synthases, most of the pstA cells—the major part of the prestalk cells—are lost, and we show by whole mount <i>in situ</i> hybridization that expression of prestalk genes is also reduced. Treatment of the double-knockout mutant with the PKS inhibitor cerulenin gave a further reduction, but some pstA cells still remained in the tip region, suggesting the existence of a polyketide-independent subtype of pstA cells. The double-knockout mutant and cerulenin-treated parental Ax2 cells form fruiting bodies with fragile, single-cell layered stalks after cerulenin treatment. Our results indicate that most pstA cells are induced by polyketides, but the pstA cells at the very tip of the slug are induced in some other way. In addition, a fruiting body with a single-cell layered, vacuolated stalk can form without polyketides.</p> <p>Major part of pstA cells are induced by polyketides and its tip region is induced by another molecule. Single cell layered, vacuolated stalk can be differentiated without polyketides.</p> 2016-03-24 13:20:15 polyketide synthase differentiation prestalk cerulenin