Ribosome biogenesis in the nucleolus requires numerous nucleolar proteins and small non-coding RNAs.Among them is ribosome biogenesis factor Bmsl,which is highly conserved from yeast to human.In yeast,Bmsl initiates r...Ribosome biogenesis in the nucleolus requires numerous nucleolar proteins and small non-coding RNAs.Among them is ribosome biogenesis factor Bmsl,which is highly conserved from yeast to human.In yeast,Bmsl initiates ribosome biogenesis through recruiting Rcll to pre-ribosomes.However,little is known about the biological function of Bmsl in vertebrates.Here we report that Bmsl plays an essential role in zebrafish liver development.We identified a zebrafish bms1l^(sq163) mutant which carries a T to A mutation in the gene bmsl-like(bms1l).This mutation results in L^(152) to Q^(152) substitution in a GTPase motif in Bmsll.Surprisingly,bmsll^(sq163) mutation confers hypoplasia specifically in the liver,exocrine pancreas and intestine after 3 days post-fertilization(dpf).Consistent with the bmsll^(sq163) mutant phenotypes,whole-mount in situ hybridization(WISH) on wild type embryos showed that bmsll transcripts are abundant in the entire digestive tract and its accessory organs.Immunostaining for phospho-Histone 3(P-H3) and TUNEL assay revealed that impairment of hepatoblast proliferation rather than cell apoptosis is one of the consequences of bms1l(sq163) giving rise to an under-developed liver.Therefore,our findings demonstrate that Bmsll is necessary for zebrafish liver development.展开更多
基金supported by the grants from the National Natural Science Foundation of China(NSFC)(No.31171391) to LJLan NSFC grant(No. 30825025) to JRP and a grant from the National Research Foundation of Singapore(R-154-000-529-281) to YHH
文摘Ribosome biogenesis in the nucleolus requires numerous nucleolar proteins and small non-coding RNAs.Among them is ribosome biogenesis factor Bmsl,which is highly conserved from yeast to human.In yeast,Bmsl initiates ribosome biogenesis through recruiting Rcll to pre-ribosomes.However,little is known about the biological function of Bmsl in vertebrates.Here we report that Bmsl plays an essential role in zebrafish liver development.We identified a zebrafish bms1l^(sq163) mutant which carries a T to A mutation in the gene bmsl-like(bms1l).This mutation results in L^(152) to Q^(152) substitution in a GTPase motif in Bmsll.Surprisingly,bmsll^(sq163) mutation confers hypoplasia specifically in the liver,exocrine pancreas and intestine after 3 days post-fertilization(dpf).Consistent with the bmsll^(sq163) mutant phenotypes,whole-mount in situ hybridization(WISH) on wild type embryos showed that bmsll transcripts are abundant in the entire digestive tract and its accessory organs.Immunostaining for phospho-Histone 3(P-H3) and TUNEL assay revealed that impairment of hepatoblast proliferation rather than cell apoptosis is one of the consequences of bms1l(sq163) giving rise to an under-developed liver.Therefore,our findings demonstrate that Bmsll is necessary for zebrafish liver development.
