Taxadiene is an important precursor for the biosynthesis of highly effective anticancer drug paclitaxel,but its microbial biosynthesis yield is very low.In this study,we employed Yarrowia lipolytica as a microbial hos...Taxadiene is an important precursor for the biosynthesis of highly effective anticancer drug paclitaxel,but its microbial biosynthesis yield is very low.In this study,we employed Yarrowia lipolytica as a microbial host to produce taxadiene.First,a“push–pull”strategy was adopted to increase taxadiene production by 234%.Then taxadiene synthase was fused with five solubilizing tags respectively,leading a maximum increase of 62.3%in taxadiene production when fused with SUMO.Subsequently,a multi-copy iterative integration method was used to further increase taxadiene titer,achieving the maximum titer of 23.7 mg/L in shake flask culture after three rounds of integration.Finally,the taxadiene titer was increased to 101.4 mg/L by optimization of the fed-batch fermentation conditions.This is the first report of taxadiene biosynthesis accomplished in Y.lipolytica,serving as a good example for the sustainable production of taxadiene and other terpenoids in this oleaginous yeast.展开更多
Bacterial prodigiosins are red-colored secondary metabolites with multiple activities,such as anticancer,antimalarial and immunosuppressive,which hold great potential for medical applications.In this study,dramaticall...Bacterial prodigiosins are red-colored secondary metabolites with multiple activities,such as anticancer,antimalarial and immunosuppressive,which hold great potential for medical applications.In this study,dramatically enhanced prodigiosins(RED) production in Streptomyces coelicolor was achieved by combinatorial metabolic engineering,including inactivation of the repressor gene ohkA,deletion of the actinorhodin(ACT) and calcium-dependent antibiotic(CDA) biosynthetic gene clusters(BGCs) and multi-copy chromosomal integration of the RED BGC.The results showed that ohkA deletion led to a 1-fold increase of RED production over the wild-type strain M145.Then,the ACT and CDA BGCs were deleted successively based on the AohkA mutant(SBJ101).To achieve multi-copy RED BGC integration,artificial ΦC31 attB site(s) were inserted simultaneously at the position where the ACT and CDA BGCs were deleted.The resulting strains SBJ102(with a single deletion of the ACT BGC and insertion of one artificial attB site) and SBJ103(with the deletion of both BGCs and insertion of two artificial attB sites) produced 1.9-and 6-fold higher RED titers than M145,respectively.Finally,the entire RED BGC was introduced into mutants from SBJ101 to SBJ103,generating three mutants(from SBJ104 to SBJ106) with chromosomal integration of one to three copies of the RED BGC.The highest RED yield was from SBJ106,which produced a maximum level of 96.8 mg g^(-1) cell dry weight,showing a 12-fold increase relative to M145.Collectively,the metabolic engineering strategies employed in this study are very efficient for the construction of high prodigiosin-producing strains.展开更多
A novel set of five polymorphic di- or trinucleofide microsatellite loci suitable for population genetic study were developed from an enriched genomic library for the pest insect cotton bollworm, Helicoverpa armigera,...A novel set of five polymorphic di- or trinucleofide microsatellite loci suitable for population genetic study were developed from an enriched genomic library for the pest insect cotton bollworm, Helicoverpa armigera, and cross-amplifiability of these and other published loci was tested in a closely related species, the tobacco budworm, H.assulta. The expected heterozygosity at these loci ranges from 0.62 to 0.91 in the cotton bollworm. The observed allele numbers varies from 4 to 12 in the limited number of individuals tested. Although a large proportion of cloned microsatellite sequences are present in multi-copy in the cotton bollworm genome, the overwhelming majority of the finalized polymorphic diallelic loci are tri-nucleotide microsatellites - an unexpected outcome, which should facilitate subsequent genotyping analysis.展开更多
EMSA and footprinting analyses have revealed that the -489—-414 bp and the -390—-345 bp (designated DC and PC respectively) upstream of the Aspergillus niger T21 glaA gene were bound by one protein factor in the A. ...EMSA and footprinting analyses have revealed that the -489—-414 bp and the -390—-345 bp (designated DC and PC respectively) upstream of the Aspergillus niger T21 glaA gene were bound by one protein factor in the A. niger T21 whole cell extract. Both DC and PC contained CCAAT pentanucleotides. The functions of DC and PC in regulation of expression of glucoamylase (GLA) were studied. CCAAT pentanucleotides were replaced with CGTAA and the mutated DNA fragments DCm and PCm lost the binding activities of protein factors in vitro. In vivo when either DC or PC was mutated or the relative orientations between them were changed on the PglaA, the transcriptional activity of PglaA decreased to a basal level. Introduction of multi-copies of DC into the original site at the PglaA in A. niger T21 decreased the expression of endogenous GLA expression and the exogenous reporter E. coli uidA gene introduced under the PglaA promoter, while having no effect on the uidA gene under the control of PgpdA. EMSA re-vealed that the levels of the specific DNA-binding protein factors in the transformants maintained the same meaning that introduction of multi-copies of DC caused the titration effect. AnghapC gene was cloned from A. niger T21 cDNA and introduced into the DC multi-copied strains. The expression of AnghapC improved the expression of the endogenous GLA and the exogenous gene controlled by PglaA. These results showed that both the CCAAT pentanucleotides were necessary for DC and PC binding to the protein factors, and the simultaneous binding of DC and PC to the protein was necessary for promoting the transcriptional activity of PglaA. AngHapC was the specific positive trans-acting protein factor binding to DC.展开更多
Identification of genetic variants via high-throughput sequencing(HTS)technologies has been essential for both fundamental and clinical studies.However,to what extent the genome sequence composition affects variant ca...Identification of genetic variants via high-throughput sequencing(HTS)technologies has been essential for both fundamental and clinical studies.However,to what extent the genome sequence composition affects variant calling remains unclear.In this study,we identified 63,897 multi-copy sequences(MCSs)with a minimum length of 300 bp,each of which occurs at least twice in the human genome.The 151,749 genomic loci(multi-copy regions,or MCRs)harboring these MCSs account for 1.98% of the genome and are distributed unevenly across chromosomes.MCRs containing the same MCS tend to be located on the same chromosome.Gene Ontology(GO)analyses revealed that 3800 genes whose UTRs or exons overlap with MCRs are enriched for Golgirelated cellular component terms and various enzymatic activities in the GO biological function category.MCRs are also enriched for loci that are sensitive to neocarzinostatin-induced double-strand breaks.Moreover,genetic variants discovered by genome-wide association studies and recorded in dbSNP are significantly underrepresented in MCRs.Using simulated HTS datasets,we show that false variant discovery rates are significantly higher in MCRs than in other genomic regions.These results suggest that extra caution must be taken when identifying genetic variants in the MCRs via HTS technologies.展开更多
Genomic integration of genes and pathway-sized DNA cassettes is often an indispensable way to construct robust and productive microbial cell factories.For some uncommon microbial hosts,such as Mycolicibacterium and My...Genomic integration of genes and pathway-sized DNA cassettes is often an indispensable way to construct robust and productive microbial cell factories.For some uncommon microbial hosts,such as Mycolicibacterium and Mycobacterium species,however,it is a challenge.Here,we present a multiplexed integrase-assisted site-specific recombination(miSSR)method to precisely and iteratively integrate genes/pathways with controllable copies in the chromosomes of Mycolicibacteria for the purpose of developing cell factories.First,a single-step multi-copy integration method was established in M.neoaurum by a combination application of mycobacteriophage L5 integrase and two-step allelic exchange strategy,the efficiencies of which were~100%for no more than three-copy integration events and decreased sharply to~20%for five-copy integration events.Second,the R4,Bxb1 andΦC31 bacteriophage Att/Int systems were selected to extend the available integration toolbox for multiplexed gene integration events.Third,a reconstructed mycolicibacterial Xer recombinases(Xer-cise)system was employed to recycle the selection marker of gene recombination to facilitate the iterative gene manipulation.As a proof of concept,the biosynthetic pathway of ergothioneine(EGT)in Mycolicibacterium neoaurum ATCC 25795 was achieved by remodeling its metabolic pathway with a miSSR system.With six copies of the biosynthetic gene clusters(BGCs)of EGT and pentose phosphate isomerase(PRT),the titer of EGT in the resulting strain in a 30 mL shake flask within 5 days was enhanced to 66 mg/L,which was 3.77 times of that in the wild strain.The improvements indicated that the miSSR system was an effective,flexible,and convenient tool to engineer the genomes of Mycolicibacteria as well as other strains in the Mycobacteriaceae due to their proximate evolutionary relationships.展开更多
DYF371 locus and single‑nucleotide polymorphisms(SNPs)defined as DYF371C or DYF371T were simultaneously examined for 142 Chinese unrelated male individuals,including 90 Han population and 52 minorities.In total,37 SNP...DYF371 locus and single‑nucleotide polymorphisms(SNPs)defined as DYF371C or DYF371T were simultaneously examined for 142 Chinese unrelated male individuals,including 90 Han population and 52 minorities.In total,37 SNP-short tandem repeat haplotypes were detected.Nine of these 37 haplotypes were unique(24.32%).The gene diversity and discrimination capacity values are 0.8321 and 0.2606,respectively.Furthermore,only five males(5.55%)in the Han samples were determined that they had one copy of allele with SNP T-type and three copies of alleles with SNP C-types,whereas 14 individuals(26.92%)were observed in minorities’samples.The genotype proportion comprising three distinguishing copies of the allele with SNP C-types in Han sample was greatly lower than that in the sample of minorities.Similar results were shown for allele 11C and 10C.Therefore,the alleles of DYF371 with SNP C-type have the potential to differentiate the Han and non-Han Chinese populations.展开更多
The prevalent multi-copy routing algorithms in mobile opportunistic networks(MONs)easily cause network congestion.This paper introduces a disjoint-path(DP)routing algorithm,where each node can only transmit packets on...The prevalent multi-copy routing algorithms in mobile opportunistic networks(MONs)easily cause network congestion.This paper introduces a disjoint-path(DP)routing algorithm,where each node can only transmit packets once except the source node,to effectively control the number of packet copies in the network.The discrete continuous time Markov chain(CTMC)was utilized to analyze the state transition between nodes,and the copy numbers of packets with the DP routing algorithm were calculated.Simulation results indicate that DP has a great improvement in terms of packet delivery ratio,average delivery delay,average network overhead,energy and average hop count.展开更多
基金supported by the National Key Research and Development Program of China(2019YFA0905000)the National Natural Science Foundation of China(21871085 and 31971380)the Fundamental Research Funds for the Central Universities(222201714026).
文摘Taxadiene is an important precursor for the biosynthesis of highly effective anticancer drug paclitaxel,but its microbial biosynthesis yield is very low.In this study,we employed Yarrowia lipolytica as a microbial host to produce taxadiene.First,a“push–pull”strategy was adopted to increase taxadiene production by 234%.Then taxadiene synthase was fused with five solubilizing tags respectively,leading a maximum increase of 62.3%in taxadiene production when fused with SUMO.Subsequently,a multi-copy iterative integration method was used to further increase taxadiene titer,achieving the maximum titer of 23.7 mg/L in shake flask culture after three rounds of integration.Finally,the taxadiene titer was increased to 101.4 mg/L by optimization of the fed-batch fermentation conditions.This is the first report of taxadiene biosynthesis accomplished in Y.lipolytica,serving as a good example for the sustainable production of taxadiene and other terpenoids in this oleaginous yeast.
基金supported by the National Natural Science Foundation of China(31430004,31421061,31630003,31370081 and 31570072)the Science and Technology Commission of Shanghai Municipality(16490712100)
文摘Bacterial prodigiosins are red-colored secondary metabolites with multiple activities,such as anticancer,antimalarial and immunosuppressive,which hold great potential for medical applications.In this study,dramatically enhanced prodigiosins(RED) production in Streptomyces coelicolor was achieved by combinatorial metabolic engineering,including inactivation of the repressor gene ohkA,deletion of the actinorhodin(ACT) and calcium-dependent antibiotic(CDA) biosynthetic gene clusters(BGCs) and multi-copy chromosomal integration of the RED BGC.The results showed that ohkA deletion led to a 1-fold increase of RED production over the wild-type strain M145.Then,the ACT and CDA BGCs were deleted successively based on the AohkA mutant(SBJ101).To achieve multi-copy RED BGC integration,artificial ΦC31 attB site(s) were inserted simultaneously at the position where the ACT and CDA BGCs were deleted.The resulting strains SBJ102(with a single deletion of the ACT BGC and insertion of one artificial attB site) and SBJ103(with the deletion of both BGCs and insertion of two artificial attB sites) produced 1.9-and 6-fold higher RED titers than M145,respectively.Finally,the entire RED BGC was introduced into mutants from SBJ101 to SBJ103,generating three mutants(from SBJ104 to SBJ106) with chromosomal integration of one to three copies of the RED BGC.The highest RED yield was from SBJ106,which produced a maximum level of 96.8 mg g^(-1) cell dry weight,showing a 12-fold increase relative to M145.Collectively,the metabolic engineering strategies employed in this study are very efficient for the construction of high prodigiosin-producing strains.
文摘A novel set of five polymorphic di- or trinucleofide microsatellite loci suitable for population genetic study were developed from an enriched genomic library for the pest insect cotton bollworm, Helicoverpa armigera, and cross-amplifiability of these and other published loci was tested in a closely related species, the tobacco budworm, H.assulta. The expected heterozygosity at these loci ranges from 0.62 to 0.91 in the cotton bollworm. The observed allele numbers varies from 4 to 12 in the limited number of individuals tested. Although a large proportion of cloned microsatellite sequences are present in multi-copy in the cotton bollworm genome, the overwhelming majority of the finalized polymorphic diallelic loci are tri-nucleotide microsatellites - an unexpected outcome, which should facilitate subsequent genotyping analysis.
基金supported by the National Natural Science Foundation of China(Grant No.30170014).
文摘EMSA and footprinting analyses have revealed that the -489—-414 bp and the -390—-345 bp (designated DC and PC respectively) upstream of the Aspergillus niger T21 glaA gene were bound by one protein factor in the A. niger T21 whole cell extract. Both DC and PC contained CCAAT pentanucleotides. The functions of DC and PC in regulation of expression of glucoamylase (GLA) were studied. CCAAT pentanucleotides were replaced with CGTAA and the mutated DNA fragments DCm and PCm lost the binding activities of protein factors in vitro. In vivo when either DC or PC was mutated or the relative orientations between them were changed on the PglaA, the transcriptional activity of PglaA decreased to a basal level. Introduction of multi-copies of DC into the original site at the PglaA in A. niger T21 decreased the expression of endogenous GLA expression and the exogenous reporter E. coli uidA gene introduced under the PglaA promoter, while having no effect on the uidA gene under the control of PgpdA. EMSA re-vealed that the levels of the specific DNA-binding protein factors in the transformants maintained the same meaning that introduction of multi-copies of DC caused the titration effect. AnghapC gene was cloned from A. niger T21 cDNA and introduced into the DC multi-copied strains. The expression of AnghapC improved the expression of the endogenous GLA and the exogenous gene controlled by PglaA. These results showed that both the CCAAT pentanucleotides were necessary for DC and PC binding to the protein factors, and the simultaneous binding of DC and PC to the protein was necessary for promoting the transcriptional activity of PglaA. AngHapC was the specific positive trans-acting protein factor binding to DC.
基金supported by the National Natural Science Foundation of China(NSFC,Grant No.31771479)Science Fund for Creative Research Groups of the NSFC(Grant No.81521003)+5 种基金Projects of International Cooperation and Exchanges of NSFC(Grant No.61661146004)Municipal Planning Projects of Scientific Technology of Guangdong(Grant No.201804020083)the Science and Technology Program of Guangzhou(Grant No.201400000004)the Natural Science Foundation of Guangdong(Grant No.2015B050501006)the Team Program of Natural Science Foundation of Guangdong(Grant No.2014A030312002)the 1000 Talents Program of China。
文摘Identification of genetic variants via high-throughput sequencing(HTS)technologies has been essential for both fundamental and clinical studies.However,to what extent the genome sequence composition affects variant calling remains unclear.In this study,we identified 63,897 multi-copy sequences(MCSs)with a minimum length of 300 bp,each of which occurs at least twice in the human genome.The 151,749 genomic loci(multi-copy regions,or MCRs)harboring these MCSs account for 1.98% of the genome and are distributed unevenly across chromosomes.MCRs containing the same MCS tend to be located on the same chromosome.Gene Ontology(GO)analyses revealed that 3800 genes whose UTRs or exons overlap with MCRs are enriched for Golgirelated cellular component terms and various enzymatic activities in the GO biological function category.MCRs are also enriched for loci that are sensitive to neocarzinostatin-induced double-strand breaks.Moreover,genetic variants discovered by genome-wide association studies and recorded in dbSNP are significantly underrepresented in MCRs.Using simulated HTS datasets,we show that false variant discovery rates are significantly higher in MCRs than in other genomic regions.These results suggest that extra caution must be taken when identifying genetic variants in the MCRs via HTS technologies.
基金supported by the National Natural Science Foundation of China(No.21776075)the Natural Science Foundation of Shanghai(No.20ZR1415100)the National Key Research and Development Program of China(No.SQ2020YFC210061).
文摘Genomic integration of genes and pathway-sized DNA cassettes is often an indispensable way to construct robust and productive microbial cell factories.For some uncommon microbial hosts,such as Mycolicibacterium and Mycobacterium species,however,it is a challenge.Here,we present a multiplexed integrase-assisted site-specific recombination(miSSR)method to precisely and iteratively integrate genes/pathways with controllable copies in the chromosomes of Mycolicibacteria for the purpose of developing cell factories.First,a single-step multi-copy integration method was established in M.neoaurum by a combination application of mycobacteriophage L5 integrase and two-step allelic exchange strategy,the efficiencies of which were~100%for no more than three-copy integration events and decreased sharply to~20%for five-copy integration events.Second,the R4,Bxb1 andΦC31 bacteriophage Att/Int systems were selected to extend the available integration toolbox for multiplexed gene integration events.Third,a reconstructed mycolicibacterial Xer recombinases(Xer-cise)system was employed to recycle the selection marker of gene recombination to facilitate the iterative gene manipulation.As a proof of concept,the biosynthetic pathway of ergothioneine(EGT)in Mycolicibacterium neoaurum ATCC 25795 was achieved by remodeling its metabolic pathway with a miSSR system.With six copies of the biosynthetic gene clusters(BGCs)of EGT and pentose phosphate isomerase(PRT),the titer of EGT in the resulting strain in a 30 mL shake flask within 5 days was enhanced to 66 mg/L,which was 3.77 times of that in the wild strain.The improvements indicated that the miSSR system was an effective,flexible,and convenient tool to engineer the genomes of Mycolicibacteria as well as other strains in the Mycobacteriaceae due to their proximate evolutionary relationships.
文摘DYF371 locus and single‑nucleotide polymorphisms(SNPs)defined as DYF371C or DYF371T were simultaneously examined for 142 Chinese unrelated male individuals,including 90 Han population and 52 minorities.In total,37 SNP-short tandem repeat haplotypes were detected.Nine of these 37 haplotypes were unique(24.32%).The gene diversity and discrimination capacity values are 0.8321 and 0.2606,respectively.Furthermore,only five males(5.55%)in the Han samples were determined that they had one copy of allele with SNP T-type and three copies of alleles with SNP C-types,whereas 14 individuals(26.92%)were observed in minorities’samples.The genotype proportion comprising three distinguishing copies of the allele with SNP C-types in Han sample was greatly lower than that in the sample of minorities.Similar results were shown for allele 11C and 10C.Therefore,the alleles of DYF371 with SNP C-type have the potential to differentiate the Han and non-Han Chinese populations.
基金the National Natural Science Foundation of China under Grants U1804164,61902112 and U1404602in part by the Science and Technology Foundation of Henan Educational Committee under Grants 19A510015,20A520019,20A520020.
文摘The prevalent multi-copy routing algorithms in mobile opportunistic networks(MONs)easily cause network congestion.This paper introduces a disjoint-path(DP)routing algorithm,where each node can only transmit packets once except the source node,to effectively control the number of packet copies in the network.The discrete continuous time Markov chain(CTMC)was utilized to analyze the state transition between nodes,and the copy numbers of packets with the DP routing algorithm were calculated.Simulation results indicate that DP has a great improvement in terms of packet delivery ratio,average delivery delay,average network overhead,energy and average hop count.
