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911.
Fan Wu Chuan Ma Bin Han Lifeng Meng Han Hu Yu Fang Mao Feng Xufeng Zhang Olav Rueppell Jianke Li 《Molecular ecology》2019,28(18):4212-4227
Reproductive investment is a central life history variable that influences all aspects of life. Hormones coordinate reproduction in multicellular organisms, but the mechanisms controlling the collective reproductive investment of social insects are largely unexplored. One important aspect of honey bee (Apis mellifera) reproductive investment consists of raising female‐destined larvae into new queens by alloparental care of nurse bees in form of royal jelly provisioning. Artificial selection for commercial royal jelly production over 40 years has increased this reproductive investment by an order of magnitude. In a cross‐fostering experiment, we establish that this shift in social phenotype is caused by nurse bees. We find no evidence for changes in larval signalling. Instead, the antennae of the nurse bees of the selected stock are more responsive to brood pheromones than control bees. Correspondingly, the selected royal jelly bee nurses are more attracted to brood pheromones than unselected control nurses. Comparative proteomics of the antennae from the selected and unselected stocks indicate putative molecular mechanisms, primarily changes in chemosensation and energy metabolism. We report expression differences of several candidate genes that correlate with the differences in reproductive investment. The functional relevance of these genes is supported by demonstrating that the corresponding proteins can competitively bind one previously described and one newly discovered brood pheromone. Thus, we suggest several chemosensory genes, most prominently OBP16 and CSP4, as candidate mechanisms controlling queen rearing, a key reproductive investment, in honey bees. These findings reveal novel aspects of pheromonal communication in honey bees and explain how sensory changes affect communication and lead to a drastic shift in colony‐level resource allocation to sexual reproduction. Thus, pheromonal and hormonal communication may play similar roles for reproductive investment in superorganisms and multicellular organisms, respectively. 相似文献
912.
Zeng Zeyu Cheung William W. L. Li Shiyu Hu Jiatang Wang Ying 《Reviews in Fish Biology and Fisheries》2019,29(4):861-875
Reviews in Fish Biology and Fisheries - Climate change poses a challenge to the management of marine ecosystems and fisheries. Estuarine ecosystems in particular are exposed to a broad range of... 相似文献
913.
The flagellated eukaryote Trypanosoma brucei alternates between the insect vector and the mammalian host and proliferates through an unusual mode of cell division. Cell division requires flagellum motility‐generated forces, but flagellum motility exerts distinct effects between different life cycle forms. Motility is required for the final cell abscission of the procyclic form in the insect vector, but is necessary for the initiation of cell division of the bloodstream form in the mammalian host. The underlying mechanisms remain elusive. Here we carried out functional analyses of a flagellar axonemal inner‐arm dynein complex in the bloodstream form and investigated its mechanistic role in cytokinesis initiation. We showed that the axonemal inner‐arm dynein heavy chain TbIAD5‐1 and TbCentrin3 form a complex, localize to the flagellum, and are required for viability in the bloodstream form. We further demonstrated the interdependence between TbIAD5‐1 and TbCentrin3 for maintenance of protein stability. Finally, we showed that depletion of TbIAD5‐1 and TbCentrin3 arrested cytokinesis initiation and disrupted the localization of multiple cytokinesis initiation regulators. These findings identified the essential role of an axonemal inner‐arm dynein complex in cell division, and provided molecular insights into the flagellum motility‐mediated cytokinesis initiation in the bloodstream form of T. brucei. 相似文献
914.
915.
Chaoqun Li Xiaojia Zhao Pengtao Xie Junping Hu Huimin Bi 《Journal of molecular recognition : JMR》2019,32(1)
Riboswitches are RNA molecules that regulate gene expression using conformation change, affected by binding of small molecule ligands. Although a number of ligand‐bound aptamer complex structures have been solved, it is important to know ligand‐free conformations of the aptamers in order to understand the mechanism of specific binding by ligands. In this paper, we use dynamics simulations on a series of models to characterize the ligand‐free and ligand‐bound aptamer domain of the c‐di‐GMP class I (GEMM‐I) riboswitch. The results revealed that the ligand‐free aptamer has a stable state with a folded P2 and P3 helix, an unfolded P1 helix and open binding pocket. The first Mg ions binding to the aptamer is structurally favorable for the successive c‐di‐GMP binding. The P1 helix forms when c‐di‐GMP is successive bound. Three key junctions J1/2, J2/3 and J1/3 in the GEMM‐I riboswitch contributing to the formation of P1 helix have been found. The binding of the c‐di‐GMP ligand to the GEMM‐I riboswitch induces the riboswitch's regulation through the direct allosteric communication network in GEMM‐I riboswitch from the c‐di‐GMP binding sites in the J1/2 and J1/3 junctions to the P1 helix, the indirect ones from those in the J2/3 and P2 communicating to P1 helix via the J1/2 and J1/3 media. 相似文献
916.
917.
918.
Wasim Ahmed Xiaojing Yan Dekun Hu Muhammad Adnan Ri-Yuan Tang Zi-Ning Cui 《Bioorganic & medicinal chemistry》2019,27(19):115048
Pyrazole constitutes an important heterocyclic family covering a broad range of synthetic as well as natural products that exhibit numerous chemical, biological, agrochemical and pharmacological properties. In order to explore compounds with good fungicidal activity, a series of new pyrazole derivatives containing 5-phenyl-2-furan were designed and synthesized. In vitro and in vivo fungicidal activities were evaluated and the compound ethyl-1-(5-phenylfuran-2-carbonyl)-5-propyl-1H-pyrazole-3-carboxylate (I8) displayed significant fungicidal activity against various fungi, especially against P. infestans. The structures of the novel pyrazole derivatives were confirmed by 1H NMR, 13C NMR, MS, elemental analysis and X-ray single crystal diffraction. Further study showed that compound I8 might act on the synthesis of cell walls from morphological and ultrastructural studies by SEM and TEM. The results also revealed that compound I8 could block the nutritional transportation leading to cells senescence and death. These results suggested that the novel pyrazole derivatives proved to be promising lead compounds. 相似文献
919.
920.