"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
"Other K. rhizophila isolates or the closely related K. kristinae and K. marina also abrogated induction of pgp-5::gfp in the germline translation mutant animals, but feeding on other close taxons, K. rosea or Micrococcus luteus, did not disrupt pgp-5 induction (Fig. 6b)."
Loss of cdkl-1 had no effect on the truncated cilia phenotypes in either ASH or AWA in dyf-5(XS) animals (Figure 1A-D), suggesting that similar to observations in ADL (Park et al., 2021), CDKL-1 is also unlikely to act in a linear pathway with DYF-5 to regulate cilia length in ASH or AWA.