Endosymbiotic bacteria of insects can facilitate host expansion into novel niches by providing their host with a fitness benefit such as vitamins or amino acids that are otherwise lacking in their hosts’diet.This clo...Endosymbiotic bacteria of insects can facilitate host expansion into novel niches by providing their host with a fitness benefit such as vitamins or amino acids that are otherwise lacking in their hosts’diet.This close association can lead to cospeciation between insects and their symbionts;however,the symbionts’small genome size leaves it susceptible to genome derogation which can result in symbiont replacement.Here,we screen chewing lice infesting shorebirds and terns to see what endosymbiotic bacteria are present,and build a summary phylogeny that includes louse endosymbiont sequences from this study as well as those from other louse genera,insects and bacteria strains from GenBank.We found a Sodalis-allied endosymbiont in Carduiceps,Lunaceps,Quadraceps,and Saemundssonia,as well as symbionts belonging to the family Enterobacteriaceae in Lunaceps,and Quadraceps.No louse species were host to both endosymbionts;however,the birds Kentish Plover(Charadrius alexandrinus)and Greater Crested Tern(Thalasseus bergii)were host to two genera of lice,each of which was infested with a different group of endosymbionts.In the summary phylogeny the endosymbionts from shorebirds,and tern lice did not form a monophyletic group,and therefore likely acquired their bacterial endosymbionts multiple times.展开更多
Mitochondria are evolutionary bacteria that are dynamic intracellular organelles involved in many vital cellular functions. However, modern medicine has fallen prey to misuse and over-usage of antibiotics. This misuse...Mitochondria are evolutionary bacteria that are dynamic intracellular organelles involved in many vital cellular functions. However, modern medicine has fallen prey to misuse and over-usage of antibiotics. This misuse can damage the mitochondrion, alter host antibiotic interactions, and cause serious pathophysiologic conditions. We believe this leads to mitochondrial dysfunction, which may promote tumorigenesis and neurodegeneration. This opinion commentary’s goal is to bring awareness of this important hot topic to the medical community before induced modern plagues are irreversible.展开更多
Vibrio harveyi, known as a pathogenic bacterium caused severe secondary bacterial infections of the large yellow croaker Larimichthys crocea, was identified as an endosymbiont in the marine parasitic ciliate protozoan...Vibrio harveyi, known as a pathogenic bacterium caused severe secondary bacterial infections of the large yellow croaker Larimichthys crocea, was identified as an endosymbiont in the marine parasitic ciliate protozoan Cryptocaryon irritans. Meta 16 S sequencing method was used to identify the bacterial flora in C. irritans, and V.harveyi was isolated via culture-dependent method. Vibrio harveyi was observed in cytoplasm of C. irritans at the stage of tomont both by transmission electron microscopy and by Fluorescence in situ hybridization; no signal,however, was detected in nucleus area. The relationship between V. harveyi and C. irritans and the role of endosymbiotic V. harveyi in C. irritans merit further investigation.展开更多
The newly-hatched nymphs of the small brown planthopper (SBPH), Laodelphax striatellus, including field and sensitive populations, were subjected to the high-temperature (35°C) treatment. The number of yeast-like...The newly-hatched nymphs of the small brown planthopper (SBPH), Laodelphax striatellus, including field and sensitive populations, were subjected to the high-temperature (35°C) treatment. The number of yeast-like endosymbiotes in SBPH reduced by 23.47%–34.23%, 57.86%–61.51% and 88.96%–90.71% after the high-temperature treatment for 1 d, 2 d, and 3 d, respectively. However, the size of yeast-like endosymbiotes was not obviously affected. Resistance of SBPH to three insecticides (imidacloprid, chlorpyrifos and fipronil) decreased with the increase of treatment time.展开更多
It has been forecast that the challenge of meeting increased food demand and protecting environmental quality will be won or lost in maize, rice and wheat cropping systems, and that the problem of environmental nitrog...It has been forecast that the challenge of meeting increased food demand and protecting environmental quality will be won or lost in maize, rice and wheat cropping systems, and that the problem of environmental nitrogen enrichment is most likely to be solved by substituting synthetic nitrogen fertilizers by the creation of cereal crops that are able to fix nitrogen symbiotically as legumes do. In legumes, rhizobia present intracellularly in membrane-bound vesicular compartments in the cytoplasm of nodule cells fix nitrogen endosymbiotically. Within these symbiosomes, membrane-bound vesicular compartments, rhizobia are supplied with energy derived from plant photosynthates and in return supply the plant with biologically fixed nitrogen, usually as ammonia. This minimizes or eliminates the need for inputs of synthetic nitrogen fertilizers. Recently we have demonstrated, using novel inoculation conditions with very low numbers of bacteria, that cells of root meristems of maize, rice, wheat and other major non-legume crops, such as oilseed rape and tomato, can be intracellularly colonized by the non-rhizobial, non-nodulating, nitrogen fixing bacterium, Gluconacetobacter diazotrophicus that naturally occurs in sugarcane. G. diazotrophicus expressing nitrogen fixing (nifH) genes is present in symbiosome-like compartments in the cytoplasm of cells of the root meristems of the target cereals and non-legume crop species, somewhat similar to the intracellular symbiosome colonization of legume nodule cells by rhizobia. To obtain an indication of the likelihood of adequate growth and yield, of maize for example, with reduced inputs of synthetic nitrogen fertilizers, we are currently determining the extent to which nitrogen fixation, as assessed using various methods, is correlated with the extent of systemic intracellular colonization by G. diazotrophicus, with minimal or zero inputs.展开更多
We asked what peptide features govern targeting to the mitochondria versus the chloroplast,using antimicrobial peptides as a starting point.This approach was inspired by the endosymbiotic hypothesis that organelle-tar...We asked what peptide features govern targeting to the mitochondria versus the chloroplast,using antimicrobial peptides as a starting point.This approach was inspired by the endosymbiotic hypothesis that organelle-targeting peptides derive from antimicrobial amphipathic peptides delivered by the host cell,to which organelle progenitors became resistant.To explore the molecular changes required to convert antimicrobial into targeting peptides,we expressed a set of 13 antimicrobial peptides in Chlamydomonas reinhardtii.Peptides were systematically modified to test distinctive features of mitochondrion-and chloroplast-targeting peptides,and we assessed their targeting potential by following the intracellular localization and maturation of a Venus fluorescent reporter used as a cargo protein.Mitochondrial targeting can be achieved by some unmodified antimicrobial peptide sequences.Targeting to both organelles is improved by replacing lysines with arginines.Chloroplast targeting is enabled by the presence of flanking unstructured sequences,additional constraints consistent with chloroplast endosymbiosis having occurred in a cell that already contained mitochondria.If indeed targeting peptides evolved from antimicrobial peptides,then required modifications imply a temporal evolutionary scenario with an early exchange of cationic residues and a late acquisition of chloroplast-specific motifs.展开更多
Apicomplexa are an extremely diverse group of unicellular organisms that infect humans and other animals. Despite the great advances in combating infectious diseases over the past century, these parasites still have a...Apicomplexa are an extremely diverse group of unicellular organisms that infect humans and other animals. Despite the great advances in combating infectious diseases over the past century, these parasites still have a tremendous social and economic burden on human societies, particularly in tropical and subtropical regions of the world. Proteases from apicomplexa have been characterized at the molecular and cellular levels, and central roles have been proposed for proteases in diverse processes. In this work, 16 new genes encoding for trypsin proteases are identified in 8 apicomplexan genomes by a genome-wide survey. Phylogenetic analysis suggests that these genes were gained through both intracellutar gene transfer and vertical gene transfer. Identification, characterization and understanding of the evolutionary origin of protease-mediated processes are crucial to increase the knowledge and improve the strategies for the development of novel chemotherapeutic agents and vaccines.展开更多
基金supported by the National Natural Science Foundation of China(grants 32001098&31961123003)the Introduction of Full-Time High-Level Talent Fund of the Institute of Zoology,Guangdong Academy of Sciences(grant GIABR-GJRC201701)+2 种基金GDAS Special Project of Science and Technology Development(2022GDASZH-2022010106 and 2019GDASYL-0203001)the Foreign Young Talent Plan(QN20200130012)the Pearl River Talent Recruitment Program of Guangdong Province(Grant,2019QN01N968).
文摘Endosymbiotic bacteria of insects can facilitate host expansion into novel niches by providing their host with a fitness benefit such as vitamins or amino acids that are otherwise lacking in their hosts’diet.This close association can lead to cospeciation between insects and their symbionts;however,the symbionts’small genome size leaves it susceptible to genome derogation which can result in symbiont replacement.Here,we screen chewing lice infesting shorebirds and terns to see what endosymbiotic bacteria are present,and build a summary phylogeny that includes louse endosymbiont sequences from this study as well as those from other louse genera,insects and bacteria strains from GenBank.We found a Sodalis-allied endosymbiont in Carduiceps,Lunaceps,Quadraceps,and Saemundssonia,as well as symbionts belonging to the family Enterobacteriaceae in Lunaceps,and Quadraceps.No louse species were host to both endosymbionts;however,the birds Kentish Plover(Charadrius alexandrinus)and Greater Crested Tern(Thalasseus bergii)were host to two genera of lice,each of which was infested with a different group of endosymbionts.In the summary phylogeny the endosymbionts from shorebirds,and tern lice did not form a monophyletic group,and therefore likely acquired their bacterial endosymbionts multiple times.
文摘Mitochondria are evolutionary bacteria that are dynamic intracellular organelles involved in many vital cellular functions. However, modern medicine has fallen prey to misuse and over-usage of antibiotics. This misuse can damage the mitochondrion, alter host antibiotic interactions, and cause serious pathophysiologic conditions. We believe this leads to mitochondrial dysfunction, which may promote tumorigenesis and neurodegeneration. This opinion commentary’s goal is to bring awareness of this important hot topic to the medical community before induced modern plagues are irreversible.
基金The National Natural Science Foundation of China under contract Nos 31372504,41176115 and 41476118
文摘Vibrio harveyi, known as a pathogenic bacterium caused severe secondary bacterial infections of the large yellow croaker Larimichthys crocea, was identified as an endosymbiont in the marine parasitic ciliate protozoan Cryptocaryon irritans. Meta 16 S sequencing method was used to identify the bacterial flora in C. irritans, and V.harveyi was isolated via culture-dependent method. Vibrio harveyi was observed in cytoplasm of C. irritans at the stage of tomont both by transmission electron microscopy and by Fluorescence in situ hybridization; no signal,however, was detected in nucleus area. The relationship between V. harveyi and C. irritans and the role of endosymbiotic V. harveyi in C. irritans merit further investigation.
文摘The newly-hatched nymphs of the small brown planthopper (SBPH), Laodelphax striatellus, including field and sensitive populations, were subjected to the high-temperature (35°C) treatment. The number of yeast-like endosymbiotes in SBPH reduced by 23.47%–34.23%, 57.86%–61.51% and 88.96%–90.71% after the high-temperature treatment for 1 d, 2 d, and 3 d, respectively. However, the size of yeast-like endosymbiotes was not obviously affected. Resistance of SBPH to three insecticides (imidacloprid, chlorpyrifos and fipronil) decreased with the increase of treatment time.
文摘It has been forecast that the challenge of meeting increased food demand and protecting environmental quality will be won or lost in maize, rice and wheat cropping systems, and that the problem of environmental nitrogen enrichment is most likely to be solved by substituting synthetic nitrogen fertilizers by the creation of cereal crops that are able to fix nitrogen symbiotically as legumes do. In legumes, rhizobia present intracellularly in membrane-bound vesicular compartments in the cytoplasm of nodule cells fix nitrogen endosymbiotically. Within these symbiosomes, membrane-bound vesicular compartments, rhizobia are supplied with energy derived from plant photosynthates and in return supply the plant with biologically fixed nitrogen, usually as ammonia. This minimizes or eliminates the need for inputs of synthetic nitrogen fertilizers. Recently we have demonstrated, using novel inoculation conditions with very low numbers of bacteria, that cells of root meristems of maize, rice, wheat and other major non-legume crops, such as oilseed rape and tomato, can be intracellularly colonized by the non-rhizobial, non-nodulating, nitrogen fixing bacterium, Gluconacetobacter diazotrophicus that naturally occurs in sugarcane. G. diazotrophicus expressing nitrogen fixing (nifH) genes is present in symbiosome-like compartments in the cytoplasm of cells of the root meristems of the target cereals and non-legume crop species, somewhat similar to the intracellular symbiosome colonization of legume nodule cells by rhizobia. To obtain an indication of the likelihood of adequate growth and yield, of maize for example, with reduced inputs of synthetic nitrogen fertilizers, we are currently determining the extent to which nitrogen fixation, as assessed using various methods, is correlated with the extent of systemic intracellular colonization by G. diazotrophicus, with minimal or zero inputs.
基金FUNDING The following financial support is gratefully acknowledged:the Centre National de la Recherche Scientifique and Sorbonne University for annual funding to UMR7141the Agence National de la Recherche for the"ChloroMitoRAMP"ANR grant(ANR-19-CE13-0009)+5 种基金"LabEx Dynamo"(ANR-LABX-011),which provided postdoctoral support to O.D.C.the"MATHTEST"grant(ANR-18-CE13-0027),which provided doctoral support to C.G.finally the Fondation Edmond Rothschild,which provided complementary financial support to O.D.C.and C.G.The funders had no role in the design of the studyin the collection,analyses,or interpretation of datain the writing of the manuscriptor in the decision to publish the results.
文摘We asked what peptide features govern targeting to the mitochondria versus the chloroplast,using antimicrobial peptides as a starting point.This approach was inspired by the endosymbiotic hypothesis that organelle-targeting peptides derive from antimicrobial amphipathic peptides delivered by the host cell,to which organelle progenitors became resistant.To explore the molecular changes required to convert antimicrobial into targeting peptides,we expressed a set of 13 antimicrobial peptides in Chlamydomonas reinhardtii.Peptides were systematically modified to test distinctive features of mitochondrion-and chloroplast-targeting peptides,and we assessed their targeting potential by following the intracellular localization and maturation of a Venus fluorescent reporter used as a cargo protein.Mitochondrial targeting can be achieved by some unmodified antimicrobial peptide sequences.Targeting to both organelles is improved by replacing lysines with arginines.Chloroplast targeting is enabled by the presence of flanking unstructured sequences,additional constraints consistent with chloroplast endosymbiosis having occurred in a cell that already contained mitochondria.If indeed targeting peptides evolved from antimicrobial peptides,then required modifications imply a temporal evolutionary scenario with an early exchange of cationic residues and a late acquisition of chloroplast-specific motifs.
文摘Apicomplexa are an extremely diverse group of unicellular organisms that infect humans and other animals. Despite the great advances in combating infectious diseases over the past century, these parasites still have a tremendous social and economic burden on human societies, particularly in tropical and subtropical regions of the world. Proteases from apicomplexa have been characterized at the molecular and cellular levels, and central roles have been proposed for proteases in diverse processes. In this work, 16 new genes encoding for trypsin proteases are identified in 8 apicomplexan genomes by a genome-wide survey. Phylogenetic analysis suggests that these genes were gained through both intracellutar gene transfer and vertical gene transfer. Identification, characterization and understanding of the evolutionary origin of protease-mediated processes are crucial to increase the knowledge and improve the strategies for the development of novel chemotherapeutic agents and vaccines.
