Nannochloropsis oceanica is a marine microalgal species with both economic value and biological importance.It grows fast,contains rich oils,reproduces asexually,holds a small and haploidy genome,and is easy to be modi...Nannochloropsis oceanica is a marine microalgal species with both economic value and biological importance.It grows fast,contains rich oils,reproduces asexually,holds a small and haploidy genome,and is easy to be modified genetically.However,the genetic study of N.oceanica is scarce.Very less genetic bases of its traits have been deciphered,and no gene has been isolated from it with the function verified simultaneously via either genetic or reverse genetic approaches or both(de novo cloned).Changing medium salinity may aid to control harmful organisms met during large scale cultivation.As a stress,it may also facilitate the accumulation of desirable chemicals including fatty acids.In order to decipher the genetic basis of the low salinity tolerance of N.oceanica,we mutated N.oceanica with Zeocin.In total,five mutant bulks were constructed at equal number of cells,100 mutants each,which were tolerant to a discontinuous serial of salinities from that of 100%of f/2 to that of a mixture of 4%of f/2 and 94%of BG11.The bulks were genotyped through whole genome re-sequencing and analyzed with bulked mutant analysis(BMA)newly modified from bulked segregant analysis(BSA).In total,47 SNPs and 112 InDels were found to associate with the low salinity tolerance,and around them a set of low salinity tolerance associating genes were identified.A set of annotatable genes commonly found between control and different salinities indicated that the genes functioning in gene expression,energy metabolism and cellular structure may be involved in the low salinity tolerance.These associating molecular markers and genes around them were not enough for outlining the physiological mechanism underlining the tolerance;however they should aid to improve N.oceanica genetically.展开更多
Cotton(Gossypium hirsutum L.) is the most important textile fiber and the second most important oil seed source in the world.To control excessive growth of cotton plant height,which may result in shading and lodging,f...Cotton(Gossypium hirsutum L.) is the most important textile fiber and the second most important oil seed source in the world.To control excessive growth of cotton plant height,which may result in shading and lodging,farmers and researchers have used plant growth regulators that展开更多
Eight lines of temperature-responsive leaf colormutants induced by applying 300 Gy Gamma-ray irradiation to Thermo-sensitive genic malesterile line 2177s,were obtained through con-tinuous selection in seven generation...Eight lines of temperature-responsive leaf colormutants induced by applying 300 Gy Gamma-ray irradiation to Thermo-sensitive genic malesterile line 2177s,were obtained through con-tinuous selection in seven generations..Theleaves of these lines started to become greenafter the fourth leaf extension,and except展开更多
Species in the microalgal genus Nannochloropsis are increasingly used as models for theoretical and applied studies. Herewe attempt to generate InDei variations in the genome of Nannochloropsis oceanica, and then deci...Species in the microalgal genus Nannochloropsis are increasingly used as models for theoretical and applied studies. Herewe attempt to generate InDei variations in the genome of Nannochloropsis oceanica, and then decipher the genetic basisof its economic and biological traits with bulked mutant analysis modified from bulked segregant analysis. In addition, wedescribe our efforts to construct site-tagged and gene-traceable mutant libraries to clone its genes through reverse geneticapproaches. Currently, more than a half of N. oceanica protein-encoding genes are annotated against databanks. However, nofunctional gene has been de novo cloned from N. oceanica and no new function has been assigned to any of its annotatablegenes. Here, we discuss the possible methods and potential benefits of de novo cloning of N. oceanica genes.展开更多
基金Supported by the National Key R&D Program of China(Nos.2018YFD0900305,2018YFD0901506)the Marine S&T Fund of Shandong Province for Pilot National Laboratory for Marine Science and Technology(Qingdao)(No.2018SDKJ0406-3)the Fundamental Research Funds for the Central Universities(No.201762017)。
文摘Nannochloropsis oceanica is a marine microalgal species with both economic value and biological importance.It grows fast,contains rich oils,reproduces asexually,holds a small and haploidy genome,and is easy to be modified genetically.However,the genetic study of N.oceanica is scarce.Very less genetic bases of its traits have been deciphered,and no gene has been isolated from it with the function verified simultaneously via either genetic or reverse genetic approaches or both(de novo cloned).Changing medium salinity may aid to control harmful organisms met during large scale cultivation.As a stress,it may also facilitate the accumulation of desirable chemicals including fatty acids.In order to decipher the genetic basis of the low salinity tolerance of N.oceanica,we mutated N.oceanica with Zeocin.In total,five mutant bulks were constructed at equal number of cells,100 mutants each,which were tolerant to a discontinuous serial of salinities from that of 100%of f/2 to that of a mixture of 4%of f/2 and 94%of BG11.The bulks were genotyped through whole genome re-sequencing and analyzed with bulked mutant analysis(BMA)newly modified from bulked segregant analysis(BSA).In total,47 SNPs and 112 InDels were found to associate with the low salinity tolerance,and around them a set of low salinity tolerance associating genes were identified.A set of annotatable genes commonly found between control and different salinities indicated that the genes functioning in gene expression,energy metabolism and cellular structure may be involved in the low salinity tolerance.These associating molecular markers and genes around them were not enough for outlining the physiological mechanism underlining the tolerance;however they should aid to improve N.oceanica genetically.
文摘Cotton(Gossypium hirsutum L.) is the most important textile fiber and the second most important oil seed source in the world.To control excessive growth of cotton plant height,which may result in shading and lodging,farmers and researchers have used plant growth regulators that
文摘Eight lines of temperature-responsive leaf colormutants induced by applying 300 Gy Gamma-ray irradiation to Thermo-sensitive genic malesterile line 2177s,were obtained through con-tinuous selection in seven generations..Theleaves of these lines started to become greenafter the fourth leaf extension,and except
文摘Species in the microalgal genus Nannochloropsis are increasingly used as models for theoretical and applied studies. Herewe attempt to generate InDei variations in the genome of Nannochloropsis oceanica, and then decipher the genetic basisof its economic and biological traits with bulked mutant analysis modified from bulked segregant analysis. In addition, wedescribe our efforts to construct site-tagged and gene-traceable mutant libraries to clone its genes through reverse geneticapproaches. Currently, more than a half of N. oceanica protein-encoding genes are annotated against databanks. However, nofunctional gene has been de novo cloned from N. oceanica and no new function has been assigned to any of its annotatablegenes. Here, we discuss the possible methods and potential benefits of de novo cloning of N. oceanica genes.
