In recent years,bonamiosis has frequently occurred in European areas,which has caused the death of oyster in a wide range and brought enormous economic losses to the breeding industry of oyster. Nowadays,the study on ...In recent years,bonamiosis has frequently occurred in European areas,which has caused the death of oyster in a wide range and brought enormous economic losses to the breeding industry of oyster. Nowadays,the study on Bonamia sp. is still in the elementary phase. The technology of pathogen’s culture in vitro is the basis for further study on the pathogenesis of Bonamia sp.,its interaction with hosts and the prevention and control of the related disease. In this study,total tissues of oyster identified by PCR were used as culture media to in vitro culture. After one month,they were identified by the method of in situ hybridization. It was found that the results of in situ hybridization were accordant with PCR results. And Bonamia ostreae were detected by in situ hybridization after B. ostreae were cultured for one month. We successfully established a simple and feasible method for in vitro culturing B. ostreae.展开更多
There is an increasing interest in discovering new antibacterial agents derived from nature to enhance the treatment of various bacterial infections.Defensins and their derived peptide fragments exhibit significant an...There is an increasing interest in discovering new antibacterial agents derived from nature to enhance the treatment of various bacterial infections.Defensins and their derived peptide fragments exhibit significant antibacterial activity without any cytotoxic effects,making them attractive features for potential novel antibacterial therapeutics.Crassostrea gigas,a traditional seafood that has been used worldwide for centuries,has its shells applied in Chinese medicine as Ostreae concha.In this study,bioinformatics analysis was used to obtain a novel antibacterial peptide,CGD-1,derived from marine Chinese medicine Ostreae concha.The physicochemical characterization and circular dichroism analysis results demonstrated that CGD-1 assembled into anα-helical structure in a simulated membrane environment,and it displayed antibacterial action against Gram-negative bacteria.The minimal inhibitory concentrations against both Pseudomonas aeruginosa ATCC27853 and Escherichia coli ATCC25922 were 25μM.CGD-1 was able to efficiently permeate the cell membrane.Changes in bacterial cell morphology were evaluated using a field emission scanning electron microscope.The results suggested that CGD-1 exerted its antibacterial activity through permeabilizing and disrupting the bacterial cell membrane.Therefore,CGD-1 may have potential applications in fighting against pathogenic bacteria such as P.aeruginosa and E.coli.展开更多
The restoration of European flat oyster (Ostrea edulis) population is critical for biodiversity and ecosystem services recovery. This study evaluates the potential of innovative clay substrates, developed and patented...The restoration of European flat oyster (Ostrea edulis) population is critical for biodiversity and ecosystem services recovery. This study evaluates the potential of innovative clay substrates, developed and patented by Oyster Heaven, as cost-effective and degradable alternatives for large-scale oyster reef restoration. Field trials conducted in an oyster aquaculture site and hatchery experiments under controlled conditions assessed the larvae settlement efficiency, microbial biofilm composition, and environmental influences. Results showed significantly lower larvae recruitment on clay prototypes and spat collectors used as control, in wild conditions, with environmental factors such as temperature and hypoxia playing a key role. In the hatchery, larvae preferred oyster shells (17,174 ± 659 spats/m2) over clay prototypes (2917 ± 111 spats/m2) and spat collectors (1451 ± 160 spats/m2). Microbial analysis revealed a shift towards Cyanobacteria and Woeseia species, with Pseudoalteromonadaceae, a genus previously linked to both stimulating and inhibiting larvae settlement, detected only on clay surfaces. Despite challenges, the clay prototypes demonstrated potential as sustainable substrates for restoration, particularly in managed “spats-on-reefs” strategies. This research highlights the importance of environmental monitoring, microbial interactions, and substrate optimization in enhancing restoration success for O. edulis populations. Further investigations are recommended to refine clay designs and assess their broader applicability under variable environmental conditions.展开更多
The milin oyster Ostrea denselamellosa is a live-bearing species with a sharp decline in the natural population.Unlike other oysters,O.denselamellosa lives in the subtidal zone and its adaptability to heat,salinity,et...The milin oyster Ostrea denselamellosa is a live-bearing species with a sharp decline in the natural population.Unlike other oysters,O.denselamellosa lives in the subtidal zone and its adaptability to heat,salinity,etc.is different from most other oys-ters.Heat shock proteins 70(HSP70)are a family of conserved ubiquitously expressed heat shock proteins which are produced in re-sponse to stressful conditions,especially heat.In this study,we identified Hsp70 genes through bioinformatic analysis in five species of oyster.Among them,O.denselamellosa holds the fewest number of Hsp70 genes,which may be one of the reasons why O.den-selamellosa cannot tolerate high temperatures.The conserved motifs and gene structures of Hsp70B2 sub-family and other types of Hsp70 in O.denselamellosa were different from that of Hspa12 sub-family,which may be due to performing necessary multiple phy-siological functions.Transcription profile analysis for Hsp70 genes of O.denselamellosa indicated that gills play an important role in responding to multiple external challenges.In addition,synteny analysis of Hsp70 genes among O.denselamellosa,O.edulis and Cras-sostrea ariakensis showed that Hsp70 genes in genus of Ostrea genome might have evolved from a common ancestor with genus of Crassostrea.In short,our results lay the foundation for further investigation of the evolution of O.denselamellosa Hsp70 genes and heat adaptability.展开更多
The ionizing groups at the active site of alkaline phosphatase (ALP, EC 3.1.3.1) from Ostrea cucullate were studied using kinetic methods. The ionization constant, pKe, of the ionizing groups at the active site of t...The ionizing groups at the active site of alkaline phosphatase (ALP, EC 3.1.3.1) from Ostrea cucullate were studied using kinetic methods. The ionization constant, pKe, of the ionizing groups at the active site of the enzyme was found to be 10.11 at 37.0℃ and the organic solvent, dioxin, had no effect on the pKe. The standard dissociation enthalpy (△Hρ) was determined to be 10.57 kcal/mol (1 ca1=4.18 J). The results show that the dissociation group of the enzyme active center is the ε-NH3^+ of lysine. Chemical modification of the enzyme by acetic anhydride and succinic anhydride demonstrates that the amino group is one of the enzyme's functional groups.展开更多
基金Supported by National Science and Technology Supporting Program(2012BAK11B04)
文摘In recent years,bonamiosis has frequently occurred in European areas,which has caused the death of oyster in a wide range and brought enormous economic losses to the breeding industry of oyster. Nowadays,the study on Bonamia sp. is still in the elementary phase. The technology of pathogen’s culture in vitro is the basis for further study on the pathogenesis of Bonamia sp.,its interaction with hosts and the prevention and control of the related disease. In this study,total tissues of oyster identified by PCR were used as culture media to in vitro culture. After one month,they were identified by the method of in situ hybridization. It was found that the results of in situ hybridization were accordant with PCR results. And Bonamia ostreae were detected by in situ hybridization after B. ostreae were cultured for one month. We successfully established a simple and feasible method for in vitro culturing B. ostreae.
基金This research work was financially supported National Natural Science Foundation of China(No.82003910)Guangdong Basic and Applied Basic Research Foundation(2020A1515110550)+2 种基金Funding Key R&D Program of Shandong Province(2022SFGC0105)Exploration Innovation Team(2021GXRC062),Jinan Talent Project for Universities(202228088)Key innovation Project of Qilu University of Technology(Shandong Academy of Sciences)(2022JBZ01-06).
文摘There is an increasing interest in discovering new antibacterial agents derived from nature to enhance the treatment of various bacterial infections.Defensins and their derived peptide fragments exhibit significant antibacterial activity without any cytotoxic effects,making them attractive features for potential novel antibacterial therapeutics.Crassostrea gigas,a traditional seafood that has been used worldwide for centuries,has its shells applied in Chinese medicine as Ostreae concha.In this study,bioinformatics analysis was used to obtain a novel antibacterial peptide,CGD-1,derived from marine Chinese medicine Ostreae concha.The physicochemical characterization and circular dichroism analysis results demonstrated that CGD-1 assembled into anα-helical structure in a simulated membrane environment,and it displayed antibacterial action against Gram-negative bacteria.The minimal inhibitory concentrations against both Pseudomonas aeruginosa ATCC27853 and Escherichia coli ATCC25922 were 25μM.CGD-1 was able to efficiently permeate the cell membrane.Changes in bacterial cell morphology were evaluated using a field emission scanning electron microscope.The results suggested that CGD-1 exerted its antibacterial activity through permeabilizing and disrupting the bacterial cell membrane.Therefore,CGD-1 may have potential applications in fighting against pathogenic bacteria such as P.aeruginosa and E.coli.
文摘The restoration of European flat oyster (Ostrea edulis) population is critical for biodiversity and ecosystem services recovery. This study evaluates the potential of innovative clay substrates, developed and patented by Oyster Heaven, as cost-effective and degradable alternatives for large-scale oyster reef restoration. Field trials conducted in an oyster aquaculture site and hatchery experiments under controlled conditions assessed the larvae settlement efficiency, microbial biofilm composition, and environmental influences. Results showed significantly lower larvae recruitment on clay prototypes and spat collectors used as control, in wild conditions, with environmental factors such as temperature and hypoxia playing a key role. In the hatchery, larvae preferred oyster shells (17,174 ± 659 spats/m2) over clay prototypes (2917 ± 111 spats/m2) and spat collectors (1451 ± 160 spats/m2). Microbial analysis revealed a shift towards Cyanobacteria and Woeseia species, with Pseudoalteromonadaceae, a genus previously linked to both stimulating and inhibiting larvae settlement, detected only on clay surfaces. Despite challenges, the clay prototypes demonstrated potential as sustainable substrates for restoration, particularly in managed “spats-on-reefs” strategies. This research highlights the importance of environmental monitoring, microbial interactions, and substrate optimization in enhancing restoration success for O. edulis populations. Further investigations are recommended to refine clay designs and assess their broader applicability under variable environmental conditions.
基金supported by grants from the National Key R&D Program of China(No.2022YFD2400305)the China Agriculture Research System Project(No.CARS-49)the Key R&D Project of Shandong Province(Nos.2021ZLGX03,2021LZGC027).
文摘The milin oyster Ostrea denselamellosa is a live-bearing species with a sharp decline in the natural population.Unlike other oysters,O.denselamellosa lives in the subtidal zone and its adaptability to heat,salinity,etc.is different from most other oys-ters.Heat shock proteins 70(HSP70)are a family of conserved ubiquitously expressed heat shock proteins which are produced in re-sponse to stressful conditions,especially heat.In this study,we identified Hsp70 genes through bioinformatic analysis in five species of oyster.Among them,O.denselamellosa holds the fewest number of Hsp70 genes,which may be one of the reasons why O.den-selamellosa cannot tolerate high temperatures.The conserved motifs and gene structures of Hsp70B2 sub-family and other types of Hsp70 in O.denselamellosa were different from that of Hspa12 sub-family,which may be due to performing necessary multiple phy-siological functions.Transcription profile analysis for Hsp70 genes of O.denselamellosa indicated that gills play an important role in responding to multiple external challenges.In addition,synteny analysis of Hsp70 genes among O.denselamellosa,O.edulis and Cras-sostrea ariakensis showed that Hsp70 genes in genus of Ostrea genome might have evolved from a common ancestor with genus of Crassostrea.In short,our results lay the foundation for further investigation of the evolution of O.denselamellosa Hsp70 genes and heat adaptability.
基金Supported by the Scientific Research Foundation for the Returned Overseas Chinese Scholars, the Ministry of Education, China
文摘The ionizing groups at the active site of alkaline phosphatase (ALP, EC 3.1.3.1) from Ostrea cucullate were studied using kinetic methods. The ionization constant, pKe, of the ionizing groups at the active site of the enzyme was found to be 10.11 at 37.0℃ and the organic solvent, dioxin, had no effect on the pKe. The standard dissociation enthalpy (△Hρ) was determined to be 10.57 kcal/mol (1 ca1=4.18 J). The results show that the dissociation group of the enzyme active center is the ε-NH3^+ of lysine. Chemical modification of the enzyme by acetic anhydride and succinic anhydride demonstrates that the amino group is one of the enzyme's functional groups.
