A comparative proteomic analysis was performed to explore the mechanism of cell elongation in developing cotton fibers.The temporal changes of global proteomes at five representative
Gossypium barbadense L.is one of the most valuable cotton species due to its silkiness,luster,long staple,and high strength.Transferring the excellent fiber traits from G.barbadense as the secondary gene pool to the w...Gossypium barbadense L.is one of the most valuable cotton species due to its silkiness,luster,long staple,and high strength.Transferring the excellent fiber traits from G.barbadense as the secondary gene pool to the widely cultivated G.hirsutum via traditional and molecular-aided selection展开更多
Plant growth regulators(PGRs) are commonly used in cereal cropping systems to restrict plant height and control lodging. Ethephon has been reported to shorten internodes and increase grain yield of maize. To analyze t...Plant growth regulators(PGRs) are commonly used in cereal cropping systems to restrict plant height and control lodging. Ethephon has been reported to shorten internodes and increase grain yield of maize. To analyze the transcriptomic profiles of maize internode elongation following ethephon treatment, differentially expressed genes were compared between the treatment and contro samples of inbred line Zong 31 using the Affymetrix Maize Genome Array. According to the microarray data 326 probe sets showed significant change in expression Further research revealed that the most remarkable effects of ethephon on maize internodes elongation occurred during a 48 h period, when 89 differentially expressed genes were detected. There were dramatic change in transcript levels at 24 h and six Auxin transport genes and four gibberellin biosynthesis pathway genes were differentially expressed in Zong 31 in response to ethephon treatment. In summary, we showed that gaseous ethylene release is involved in internode meristem cell elongation through the regulation of plant hormone signaling in maize. This work provides a platform for studies in which candidate genes will be functionally tested for involvement in internode elongation.展开更多
Bisphenol compounds(BPs)have various industrial uses and can enter the environment through various sources.To evaluate the ecotoxicity of BPs and identify potential gene candidates involved in the plant toxicity,Arabi...Bisphenol compounds(BPs)have various industrial uses and can enter the environment through various sources.To evaluate the ecotoxicity of BPs and identify potential gene candidates involved in the plant toxicity,Arabidopsis thaliana was exposed to bisphenol A(BPA),BPB,BPE,BPF,and BPS at 1,3,10 mg/L for a duration of 14 days,and their growth status were monitored.At day 14,roots and leaves were collected for internal BPs exposure concentration detection,RNA-seq(only roots),and morphological observations.As shown in the results,exposure to BPs significantly disturbed root elongation,exhibiting a trend of stimulation at low concentration and inhibition at high concentration.Additionally,BPs exhibited pronounced generation of reactive oxygen species,while none of the pollutants caused significant changes in root morphology.Internal exposure concentration analysis indicated that BPs tended to accumulate in the roots,with BPS exhibiting the highest level of accumulation.The results of RNA-seq indicated that the shared 211 differently expressed genes(DEGs)of these 5 exposure groups were enriched in defense response,generation of precursormetabolites,response to organic substance,response to oxygen-containing,response to hormone,oxidation-reduction process and so on.Regarding unique DEGs in each group,BPS wasmainly associated with the redox pathway,BPB primarily influenced seed germination,and BPA,BPE and BPF were primarily involved in metabolic signaling pathways.Our results provide newinsights for BPs induced adverse effects on Arabidopsis thaliana and suggest that the ecological risks associated with BPA alternatives cannot be ignored.展开更多
BACKGROUND Muco-submucosal elongated polyps(MSEPs)are rare benign gastrointestinal lesions,typically reported in the colon and seldom observed in the small intestine.These polyps are generally slow-growing and asympto...BACKGROUND Muco-submucosal elongated polyps(MSEPs)are rare benign gastrointestinal lesions,typically reported in the colon and seldom observed in the small intestine.These polyps are generally slow-growing and asymptomatic,making diagnosis and management challenging.Rapid enlargement of MSEPs in the duodenum is particularly rare and may raise suspicion for neoplastic potential.CASE SUMMARY We report the case of a 64-year-old female who presented with nausea and abdominal pain.Abdominal computed tomography revealed a soft tissue density in the descending duodenum.Upper endoscopy performed 15 months earlier had identified a 1.5-cm mucosal elevation in the second portion of the duodenum.On follow-up endoscopy,the lesion had enlarged significantly into a 10-cm elongated,pedunculated polyp.Endoscopic submucosal dissection was performed for complete en bloc resection.Histopathology confirmed the diagnosis of a MSEP,with no evidence of malignancy.Surveillance endoscopy performed one year after resection showed no recurrence.CONCLUSION Although MSEPs are typically benign,our case demonstrates that rapid growth may occur.This highlights the importance of continued endoscopic surveillance and early intervention,even in asymptomatic patients,to prevent potential complications and ensure timely diagnosis.展开更多
We discovered two distinctive features in the mechanical properties of extruded Mg alloys containing a long-period stacking ordered(LPSO)phase,which are highly desirable for a new class of high-strength,lightweight ma...We discovered two distinctive features in the mechanical properties of extruded Mg alloys containing a long-period stacking ordered(LPSO)phase,which are highly desirable for a new class of high-strength,lightweight materials.First,the Mg/LPSO-extruded alloy shows greater elongation compared to other Mg solid-solution-extruded alloys when a certain high strength is required.Second,the simultaneous achievement of high strength and large elongation in the Mg/LPSO-extruded alloy enhances with a reduction in extrusion speed.In this study,the physical origins of these features were examined,focusing on how changes in the microstructure affect the mechanical properties of the extruded alloys.Our findings clarify that the LPSO phase contributes not only to increased strength but also to enhanced elongation through an increase in the work-hardening rate,a mechanism we termed aanisotropic mechanical property-induced ductilizationo(AMID).Until now,most efforts to improve the ductility of Mg materials have focused on achieving aisotropic mechanical propertieso via grain refinement.Based on our results,we propose an entirely opposite approach:increasing the elongation of Mg alloy by locally enhancing theiraanisotropic mechanical propertieso through the AMID mechanism.Computational analysis further suggests that reducing the diameter of Mg-worked grains should effectively improving elongation in Mg/LPSO alloys with a high volume fraction of Mg-worked grains.展开更多
Microbial consortia that catalyze chain elongation processes have been enriched using different selection strategies,for which the electron donor is an essential one.Propanol is an extraordinarily promising electron d...Microbial consortia that catalyze chain elongation processes have been enriched using different selection strategies,for which the electron donor is an essential one.Propanol is an extraordinarily promising electron donor because it can be generated from renewable resources,including lignocellulosic biomass and protein wastes.Here,propanol was proven in detail to be an efficient electron donor,enhancing the production of odd medium-chain carboxylates during chain elongation.By exploring various electron acceptors,reactor conditions,and electron donor/electron acceptor mol ratios,our study highlights that acetate is the most suitable electron acceptor for the production of both odd-and even-chain carboxylates.The optimal conditions for propanol-based chain elongation were 30℃ and pH 6,achieving 82.8%selectivity for odd-chain carboxylates.Another critical insight from our work is that a propanol/acetate mol ratio of 1:1 can minimize the inhibitory effect of propanol and maximize the yield of medium-chain carboxylates,with the highest concentration of n-heptanoate reaching 124.5 mmol C/L.This was further illustrated by 16S rRNA amplicon sequencing,which elucidated that the community composition and keystone species in a propanol-based reactor closely resembled that of the ethanol one.The dominant phylum of the propanol-based reactor,Firmicutes showed a significant positive correlation with the concentrations of n-caproate and n-valerate.Additionally,the co-occurrence of Clostridium sensu stricto 12 and Oscillibacter,known as typical chain elongators,was identified within the propanol-based reactor.These findings enhance our understanding of propanolbased chain elongation,offer guiding principles for reactor microbiota assembly,and support efficient odd medium-chain carboxylate production.展开更多
The Elongator complex is conserved in a wide range of species and plays crucial roles in diverse cellular processes.We have previously shown that the Elongator protein PoElp3 was involved in the asexual development,pa...The Elongator complex is conserved in a wide range of species and plays crucial roles in diverse cellular processes.We have previously shown that the Elongator protein PoElp3 was involved in the asexual development,pathogenicity,and autophagy of the rice blast fungus.In this study,we further revealed that PoElp3 functions via tRNA-mediated protein integrity.Phenotypic analyses revealed that overexpression of two of the tRNAs,tK(UUU)and tQ(UUG)could rescue the defects inΔPoelp3 strain.TMT-based proteomic and transcriptional analyses demonstrated that 386 proteins were down-regulated inΔPoelp3 strain compared with wild type strain Guy11,in a transcription-independent manner.Codon usage assays revealed an enrichment of Glutamine CAA-biased mRNA in the 386 proteins compared with the 70-15 genome.In addition to those reported previously,we also found that PoErp9,a sphingolipid C9-methyltransferase,was down-regulated in theΔPoelp3strain.Through an ILV2-specific integration of PoERP9-GFP into the wild type andΔPoelp3 strain,we were able to show that PoErp9 was positively regulated by PoElp3 translationally but not transcriptionally.Functional analyses revealed that PoErp9 was involved in the fungal growth,conidial development,pathogenicity,and TORrelated autophagy homeostasis in Pyricularia oryzae.Taken together,our results suggested that PoElp3 acts through the tRNA-mediated translational efficiency to regulate asexual development,pathogenicity,sphingolipid metabolism,and autophagy in the rice blast fungus.展开更多
The pure Mg with columnar crystals was prepared by directional solidification,and the effect of process parameters on the crystal orientation and tensile properties was studied.Moreover,the microstructure evolution du...The pure Mg with columnar crystals was prepared by directional solidification,and the effect of process parameters on the crystal orientation and tensile properties was studied.Moreover,the microstructure evolution during tensile deformation was analyzed by electron backscatter diffraction(EBSD)technology.Furthermore,the slip within adjacent grains and grain boundary strain were discussed using the bicrystal model theory.The results show that the microstructure of the pure Mg at a pulling rate of 200μm/s is columnar polycrystal with growth orientation concentrated in<022ˉ5>,and no transverse grain boundaries can be seen.In addition,the Schmid factors(SFs)of basalslips in columnar crystals are higher than 0.43 under tensile stress.Moreover,the geometric compatibility factor of slip systems on both sides of grain boundaries is greater than 0.7,showing good strain coordination ability of grain boundaries.Therefore,the elongation of the directionally solidified pure Mg is as high as 53%at room temperature.展开更多
Granular sludges can resist the toxicity inhibition of medium-chain fatty acids(MCFAs)and enhance the chain elongation(CE)process.However,the granulation process is time-consuming and requires a suitable facilitating ...Granular sludges can resist the toxicity inhibition of medium-chain fatty acids(MCFAs)and enhance the chain elongation(CE)process.However,the granulation process is time-consuming and requires a suitable facilitating granulation mean.This study proposed two continuous fed Expanded Granular Sludge Bed bioreactors,one with electric field(EF)and one without,to demonstrate the promotion of sludge granulation by EF and the enhancement of MCFAs production efficiency by the anaerobic granular sludge(An GS).Through more than 50 days of operation,the EF was demonstrated to be able to promote the granulation,and the formed An GS enhanced MCFAs yield by 36%.Besides,mechanism analysis indicated that the EF promoted microbial aggregation and extracellular polymeric substances(EPS)synthesis,which enabled An GS to form more easily.Besides,An GS formed with EF improved extracellular electron transfer capacity and microbial function activity,which also contributed to the production of more MCFAs.Overall,this study provides a method to facilitate An GS granulation and revealed the underlying mechanisms,and offers important support for the diverse applications of An GS in other bioresources recovery bioprocesses.展开更多
BACKGROUND Keratin 80(KRT80),a type I intermediate filament protein,is a member of the keratin family with specialized functions in epithelial tissues.While KRT80 has been implicated in both normal physiological proce...BACKGROUND Keratin 80(KRT80),a type I intermediate filament protein,is a member of the keratin family with specialized functions in epithelial tissues.While KRT80 has been implicated in both normal physiological processes and various diseases,its role in gastric cancer(GC),particularly its expression and prognostic significance,remains poorly understood.In this study,we investigated the role and underlying molecular mechanisms of KRT80 in oxaliplatin resistance in GC.Our analysis revealed that KRT80 is significantly upregulated in GC tissues and is associated with poor clinical prognosis.The role of KRT80 in GC cell proliferation was assessed through in vitro and in vivo assays.AIM To explore the expression of KRT80 in GC and its impact on the prognosis of patients.METHODS KRT80 expression in GC tissues was analyzed using Western blotting,quantitative reverse transcription PCR,multiple immunofluorescence staining,and immunohistochemistry.Survival analysis was conducted using the Kaplan-Meier method with the log-rank test.The role of KRT80 in GC cell proliferation was assessed through in vitro and in vivo assays.Immunoprecipitation and mass spectrometry analyses identified elongation factor 1-alpha 1(EEF1A1)as a binding protein of KRT80.RESULTS Integrating our experimental findings with multiple published studies,we found that increased KRT80 expression is associated with poor prognosis in GC and promotes resistance to oxaliplatin.Moreover,we have preliminarily verified the interaction between KRT80 and EEF1A1.Therefore,this study provides a novel perspective on overcoming oxaliplatin resistance in GC.CONCLUSION Increased KRT80 expression predicts poor prognosis and promotes oxaliplatin resistance in GC,suggesting its potential as a novel prognostic biomarker.展开更多
Hypocotyl length is regarded to be a crucial seedling trait,influencing many subsequent plant development processes.However,little is known about this trait in Brassica campestris syn.Brasscia rapa.Here,we performed a...Hypocotyl length is regarded to be a crucial seedling trait,influencing many subsequent plant development processes.However,little is known about this trait in Brassica campestris syn.Brasscia rapa.Here,we performed a comparative observation on the early hypocotyl development between two cultivars,‘SZQ’belonging to pak-choi(B.campestris ssp.chinensis var.communis)with longer hypocotyls,and‘WTC’belonging to Tacai(B.campestris L.ssp.chinensis var.rosularis)with shortter hypocotyls,and found that the difference in auxin biosynthesis might contribute to the varied hypocotyl phenotype between these two cultivars.By applying GWAS analysis using a total of 226 B.campestris accessions,we identified that the AT-Hook motif nuclear localized(AHL)gene BcAHL24-MF1 contributed to the natural variation in hypocotyl length.Functional variation of BcAHL24-MF1 was attributed to four haplotypes featuring four SNPs within the promoter region,of which Hap I accumulated more transcripts with shorter hypocotyls.Constitutive overexpression of BcAHL24-MF1 in B.campestris caused decreased hypocotyl length under light circumstances and even constant darkness,as BcAHL24-MF1 repressed the PIFmediated transcriptional activation of auxin biosynthesis genes BcYUC6-MF2 and BcYUC8-LF.Our research uncovered the important role of BcAHL24-MF1 in regulating light-triggered inhibition of hypocotyl elongation,therefore presenting a valuable genetic target for crop breeding.展开更多
Microbial chain elongation(CE),utilizing anaerobic fermentation for the synthesis of high-value medium chain fatty acids(MCFAs),merges as a promising strategy in resource sustainability.Recently,it has pivoted that th...Microbial chain elongation(CE),utilizing anaerobic fermentation for the synthesis of high-value medium chain fatty acids(MCFAs),merges as a promising strategy in resource sustainability.Recently,it has pivoted that the use of different types of additives or accelerantstowards enhancing the products yield and fermentation quality has got much attention,with carbon-based materials emerging as vital facilitators.Based on bibliometrics insights,this paper firstly commences with a comprehensive review of the past two decades’progress in applying carbon-based materials within anaerobic fermentation contexts.Subsequently,the recent advancements made by different research groups in order to enhance the performance of CE systemperformance are reviewed,with particular focus on the application,impact,and underlying mechanisms of carbon-based materials in expediting MCFAs biosynthesis via CE.Finally,the future research direction is prospected,aiming to inform innovative material design and sophisticated technological applications,as well as provide a reference for improving the efficiency of anaerobic fermentation of MCFAs using carbon-based material,thereby contributing to the broader discourse on enhancing sustainability and efficiency in bio-based processes.展开更多
BACKGROUND The microcystic,elongated,and fragmented(MELF)pattern of invasion in endometrioid endometrial carcinoma(EEC)is a special mode of myometrial invasion that has been recently recognized by the pathology commun...BACKGROUND The microcystic,elongated,and fragmented(MELF)pattern of invasion in endometrioid endometrial carcinoma(EEC)is a special mode of myometrial invasion that has been recently recognized by the pathology community.Overex-pression of CXC chemokine receptor 4(CXCR4)in tumor cells contributes to tumor growth,invasion,angiogenesis,metastasis,and recurrence.AIM To explore the correlation between CXCR4 expression in EEC and MELF invasion and clinicopathological features.METHODS A total of 205 EEC patients treated at Peking University People’s Hospital from June 2020 to December 2021 were selected(60 cases with MELF invasion,145 cases without).The clinicopathological features of the two groups were compared,and expression of CXCR4 protein,estrogen receptor,and progesterone receptor was detected and compared by immunohistochemistry.RESULTS EEC with MELF invasion was significantly associated with low tumor grade,lymphovascular space invasion,deep myometrial invasion,cervical stromal involvement,and lymph node metastasis.There was a difference in CXCR4 expression between the two groups,with the MELF group having a significantly higher expression than the non-MELF group.CONCLUSION CXCR4 expression is significantly increased in EEC with MELF invasion and in the MELF invasion area,which may promote tumor invasion and metastasis and has some value for prognostic assessment.展开更多
Salt stress is a major constraint to crop productivity and quality.The limited availability of salt-tolerant genes poses significant challenges to breeding programs aimed at enhancing salt tolerance.Sorghum displays a...Salt stress is a major constraint to crop productivity and quality.The limited availability of salt-tolerant genes poses significant challenges to breeding programs aimed at enhancing salt tolerance.Sorghum displays a remarkable ability to withstand saline conditions;therefore,elucidating the genetic underpinnings of this trait is crucial.This study entailed a comprehensive resequencing of 186 sorghum accessions to perform a genome-wide association study(GWAS)focusing on relative root length(RL)and root fresh weight(RFW)under salt stress conditions.We identified eight candidate genes within a co-localized region,among which SbTEF1-a gene encoding a transcription elongation factor protein-was deemed a potential candidate due to its annotation and expression pattern alterations under salt stress.Haplotype analysis,gene cloning,linkage disequilibrium(LD)analysis,and allele effect analysis revealed that PAV284,located in the promoter region of SbTEF1,modulated gene expression under salt stress,which,in turn,influenced sorghum seedlings’salt tolerance.PAV284 holds promise as a genetic marker for selecting salt-tolerant germplasm via marker-assisted breeding,enhancing the development of salt-tolerant sorghum cultivars.展开更多
Zn-Al eutectoid alloy(ZA22)has ultra-high damping property,but its mechanical properties are still relatively low.In order to simultaneously improve the tensile strength and plasticity,a novel Al matrix composite inoc...Zn-Al eutectoid alloy(ZA22)has ultra-high damping property,but its mechanical properties are still relatively low.In order to simultaneously improve the tensile strength and plasticity,a novel Al matrix composite inoculant containing in-situ formed Al_(2)O_(3) and Al3Zr particles was designed and used to reinforce the ZA22 alloy.The microstructure of the ZA22 alloy was significantly refined.Fine Al_(2)O_(3) particles were uniformly distributed in theαphase and the lamellar eutectoid structure,whereas Al3Zr particles were distributed in theαphase and at theα/ηinterface.Property tests showed that the tensile mechanical properties of the reinforced ZA22 alloys were significantly improved.The maximum tensile strength and elongation reached 355 MPa and 7.62%,which were 1.50 and 1.89 times those of the original ZA22 alloy,respectively.The increase in mechanical properties is attributed to the multiple strengthening and toughening factors constructed in the refined microstructure.展开更多
[Objective] The aim of this study was to prepare the recombination protein of rubber elongation factor and its polyclonal antibodies.[Method] The encoding gene of rubber elongation factor(REF)was amplified by RT-PCR,a...[Objective] The aim of this study was to prepare the recombination protein of rubber elongation factor and its polyclonal antibodies.[Method] The encoding gene of rubber elongation factor(REF)was amplified by RT-PCR,and cloned into the prokaryotic expression vector pDEST17 to transform into Escherichia coil BI2I-AI.The recombinant protein induced by L-Arabinose was purified by the affinity chromatography.As the immunogen,the recombination protein was used to immunize mice for preparing polyclonal antibodies,while ELISA and Western blot hybridization were used to detect the titers and specificity.[Result] The purified recombination protein of REF with high expression was used to immunize house mice for preparing polyclonal antibodies with high titer and specificity.The western blot hybridization showed that the antibody could recognize the natural REF from latex.[Conclusion] The recombination protein of REF was successfully obtained and the mouse anti REF antibody with high titer and specificity was prepared,which lays a basis for further studies on biological functions of rubber elongation factor and other membrane proteins in rubber particles.展开更多
Semi-solid squeeze casting(SSSC) and liquid squeeze casting(LSC) processes were used to fabricate a ZL104 connecting rod, and the influences of the process parameters on the microstructures and mechanical properti...Semi-solid squeeze casting(SSSC) and liquid squeeze casting(LSC) processes were used to fabricate a ZL104 connecting rod, and the influences of the process parameters on the microstructures and mechanical properties were investigated. Results showed that the tensile strength and elongation of the SSSC-fabricated rod were improved by 22% and 17%, respectively, compared with those of the LSC-fabricated rod. For SSSC, the average particle size(APS) and the shape factor(SF) increased with the increase of re-melting temperature(Tr), whereas the tensile strength and elongation increased first and then decreased. The APS increased with increasing the mold temperature(Tm), whereas the SF increased initially and then decreased, which caused the tensile strength and elongation to increase initially and then decrease. The APS decreased and the SF increased as squeezing pressure(ps) increased, and the mechanical properties were enhanced. Moreover, the optimal Tr, ps and Tm are 848 K, 100 MPa and 523 K, respectively.展开更多
文摘A comparative proteomic analysis was performed to explore the mechanism of cell elongation in developing cotton fibers.The temporal changes of global proteomes at five representative
文摘Gossypium barbadense L.is one of the most valuable cotton species due to its silkiness,luster,long staple,and high strength.Transferring the excellent fiber traits from G.barbadense as the secondary gene pool to the widely cultivated G.hirsutum via traditional and molecular-aided selection
基金supported by the National High Technology Research and Development Program of China (2011AA10 A206)
文摘Plant growth regulators(PGRs) are commonly used in cereal cropping systems to restrict plant height and control lodging. Ethephon has been reported to shorten internodes and increase grain yield of maize. To analyze the transcriptomic profiles of maize internode elongation following ethephon treatment, differentially expressed genes were compared between the treatment and contro samples of inbred line Zong 31 using the Affymetrix Maize Genome Array. According to the microarray data 326 probe sets showed significant change in expression Further research revealed that the most remarkable effects of ethephon on maize internodes elongation occurred during a 48 h period, when 89 differentially expressed genes were detected. There were dramatic change in transcript levels at 24 h and six Auxin transport genes and four gibberellin biosynthesis pathway genes were differentially expressed in Zong 31 in response to ethephon treatment. In summary, we showed that gaseous ethylene release is involved in internode meristem cell elongation through the regulation of plant hormone signaling in maize. This work provides a platform for studies in which candidate genes will be functionally tested for involvement in internode elongation.
基金supported by the National Science Foundation of China (No.22106098)the Youth Science and Technology Research Foundation of Shanxi Province (No.20210302124298)+2 种基金the Scientific and Technological Innovation Programs of Higher Education Institutions in Shanxi (Nos.2020L0174,and 2020L0025)the Startup Foundation for Doctors of Shanxi Province (No.SD1917)the Startup Foundation for Doctors of Shanxi Medical University (No.XD1917).
文摘Bisphenol compounds(BPs)have various industrial uses and can enter the environment through various sources.To evaluate the ecotoxicity of BPs and identify potential gene candidates involved in the plant toxicity,Arabidopsis thaliana was exposed to bisphenol A(BPA),BPB,BPE,BPF,and BPS at 1,3,10 mg/L for a duration of 14 days,and their growth status were monitored.At day 14,roots and leaves were collected for internal BPs exposure concentration detection,RNA-seq(only roots),and morphological observations.As shown in the results,exposure to BPs significantly disturbed root elongation,exhibiting a trend of stimulation at low concentration and inhibition at high concentration.Additionally,BPs exhibited pronounced generation of reactive oxygen species,while none of the pollutants caused significant changes in root morphology.Internal exposure concentration analysis indicated that BPs tended to accumulate in the roots,with BPS exhibiting the highest level of accumulation.The results of RNA-seq indicated that the shared 211 differently expressed genes(DEGs)of these 5 exposure groups were enriched in defense response,generation of precursormetabolites,response to organic substance,response to oxygen-containing,response to hormone,oxidation-reduction process and so on.Regarding unique DEGs in each group,BPS wasmainly associated with the redox pathway,BPB primarily influenced seed germination,and BPA,BPE and BPF were primarily involved in metabolic signaling pathways.Our results provide newinsights for BPs induced adverse effects on Arabidopsis thaliana and suggest that the ecological risks associated with BPA alternatives cannot be ignored.
文摘BACKGROUND Muco-submucosal elongated polyps(MSEPs)are rare benign gastrointestinal lesions,typically reported in the colon and seldom observed in the small intestine.These polyps are generally slow-growing and asymptomatic,making diagnosis and management challenging.Rapid enlargement of MSEPs in the duodenum is particularly rare and may raise suspicion for neoplastic potential.CASE SUMMARY We report the case of a 64-year-old female who presented with nausea and abdominal pain.Abdominal computed tomography revealed a soft tissue density in the descending duodenum.Upper endoscopy performed 15 months earlier had identified a 1.5-cm mucosal elevation in the second portion of the duodenum.On follow-up endoscopy,the lesion had enlarged significantly into a 10-cm elongated,pedunculated polyp.Endoscopic submucosal dissection was performed for complete en bloc resection.Histopathology confirmed the diagnosis of a MSEP,with no evidence of malignancy.Surveillance endoscopy performed one year after resection showed no recurrence.CONCLUSION Although MSEPs are typically benign,our case demonstrates that rapid growth may occur.This highlights the importance of continued endoscopic surveillance and early intervention,even in asymptomatic patients,to prevent potential complications and ensure timely diagnosis.
基金supported by the Japan Science and Technology Agency(JST),CREST(grant number JPMJCR2094)。
文摘We discovered two distinctive features in the mechanical properties of extruded Mg alloys containing a long-period stacking ordered(LPSO)phase,which are highly desirable for a new class of high-strength,lightweight materials.First,the Mg/LPSO-extruded alloy shows greater elongation compared to other Mg solid-solution-extruded alloys when a certain high strength is required.Second,the simultaneous achievement of high strength and large elongation in the Mg/LPSO-extruded alloy enhances with a reduction in extrusion speed.In this study,the physical origins of these features were examined,focusing on how changes in the microstructure affect the mechanical properties of the extruded alloys.Our findings clarify that the LPSO phase contributes not only to increased strength but also to enhanced elongation through an increase in the work-hardening rate,a mechanism we termed aanisotropic mechanical property-induced ductilizationo(AMID).Until now,most efforts to improve the ductility of Mg materials have focused on achieving aisotropic mechanical propertieso via grain refinement.Based on our results,we propose an entirely opposite approach:increasing the elongation of Mg alloy by locally enhancing theiraanisotropic mechanical propertieso through the AMID mechanism.Computational analysis further suggests that reducing the diameter of Mg-worked grains should effectively improving elongation in Mg/LPSO alloys with a high volume fraction of Mg-worked grains.
基金supported by the National Key R&D Program of China(No.2022YFC2105301)the National Natural Science Foundation of China(No.52270096).
文摘Microbial consortia that catalyze chain elongation processes have been enriched using different selection strategies,for which the electron donor is an essential one.Propanol is an extraordinarily promising electron donor because it can be generated from renewable resources,including lignocellulosic biomass and protein wastes.Here,propanol was proven in detail to be an efficient electron donor,enhancing the production of odd medium-chain carboxylates during chain elongation.By exploring various electron acceptors,reactor conditions,and electron donor/electron acceptor mol ratios,our study highlights that acetate is the most suitable electron acceptor for the production of both odd-and even-chain carboxylates.The optimal conditions for propanol-based chain elongation were 30℃ and pH 6,achieving 82.8%selectivity for odd-chain carboxylates.Another critical insight from our work is that a propanol/acetate mol ratio of 1:1 can minimize the inhibitory effect of propanol and maximize the yield of medium-chain carboxylates,with the highest concentration of n-heptanoate reaching 124.5 mmol C/L.This was further illustrated by 16S rRNA amplicon sequencing,which elucidated that the community composition and keystone species in a propanol-based reactor closely resembled that of the ethanol one.The dominant phylum of the propanol-based reactor,Firmicutes showed a significant positive correlation with the concentrations of n-caproate and n-valerate.Additionally,the co-occurrence of Clostridium sensu stricto 12 and Oscillibacter,known as typical chain elongators,was identified within the propanol-based reactor.These findings enhance our understanding of propanolbased chain elongation,offer guiding principles for reactor microbiota assembly,and support efficient odd medium-chain carboxylate production.
基金supported by National Natural Science Foundation of China(32172365 and 32272513)the Central Guidance on Local Science and Technology Development Fund of Fujian Province,China(2022L3088)the Innovative Research Funding of Fujian Agriculture and Forestry University,China(CXZX2020153D)。
文摘The Elongator complex is conserved in a wide range of species and plays crucial roles in diverse cellular processes.We have previously shown that the Elongator protein PoElp3 was involved in the asexual development,pathogenicity,and autophagy of the rice blast fungus.In this study,we further revealed that PoElp3 functions via tRNA-mediated protein integrity.Phenotypic analyses revealed that overexpression of two of the tRNAs,tK(UUU)and tQ(UUG)could rescue the defects inΔPoelp3 strain.TMT-based proteomic and transcriptional analyses demonstrated that 386 proteins were down-regulated inΔPoelp3 strain compared with wild type strain Guy11,in a transcription-independent manner.Codon usage assays revealed an enrichment of Glutamine CAA-biased mRNA in the 386 proteins compared with the 70-15 genome.In addition to those reported previously,we also found that PoErp9,a sphingolipid C9-methyltransferase,was down-regulated in theΔPoelp3strain.Through an ILV2-specific integration of PoERP9-GFP into the wild type andΔPoelp3 strain,we were able to show that PoErp9 was positively regulated by PoElp3 translationally but not transcriptionally.Functional analyses revealed that PoErp9 was involved in the fungal growth,conidial development,pathogenicity,and TORrelated autophagy homeostasis in Pyricularia oryzae.Taken together,our results suggested that PoElp3 acts through the tRNA-mediated translational efficiency to regulate asexual development,pathogenicity,sphingolipid metabolism,and autophagy in the rice blast fungus.
基金Projects(51775099,51675092)supported by the National Natural Science Foundation of ChinaProjects(E2021501019,E2022501001,E2022501006)supported by the Natural Science Foundation of Hebei Province,China。
文摘The pure Mg with columnar crystals was prepared by directional solidification,and the effect of process parameters on the crystal orientation and tensile properties was studied.Moreover,the microstructure evolution during tensile deformation was analyzed by electron backscatter diffraction(EBSD)technology.Furthermore,the slip within adjacent grains and grain boundary strain were discussed using the bicrystal model theory.The results show that the microstructure of the pure Mg at a pulling rate of 200μm/s is columnar polycrystal with growth orientation concentrated in<022ˉ5>,and no transverse grain boundaries can be seen.In addition,the Schmid factors(SFs)of basalslips in columnar crystals are higher than 0.43 under tensile stress.Moreover,the geometric compatibility factor of slip systems on both sides of grain boundaries is greater than 0.7,showing good strain coordination ability of grain boundaries.Therefore,the elongation of the directionally solidified pure Mg is as high as 53%at room temperature.
基金supported by the Natural Science Foundation of Heilongjiang Province(No.LH2023E051)Open Project of State Key Laboratory of Urban Water Resource and Environment(No.HC202241)Young Scientist Studio of Harbin Institute of Technology。
文摘Granular sludges can resist the toxicity inhibition of medium-chain fatty acids(MCFAs)and enhance the chain elongation(CE)process.However,the granulation process is time-consuming and requires a suitable facilitating granulation mean.This study proposed two continuous fed Expanded Granular Sludge Bed bioreactors,one with electric field(EF)and one without,to demonstrate the promotion of sludge granulation by EF and the enhancement of MCFAs production efficiency by the anaerobic granular sludge(An GS).Through more than 50 days of operation,the EF was demonstrated to be able to promote the granulation,and the formed An GS enhanced MCFAs yield by 36%.Besides,mechanism analysis indicated that the EF promoted microbial aggregation and extracellular polymeric substances(EPS)synthesis,which enabled An GS to form more easily.Besides,An GS formed with EF improved extracellular electron transfer capacity and microbial function activity,which also contributed to the production of more MCFAs.Overall,this study provides a method to facilitate An GS granulation and revealed the underlying mechanisms,and offers important support for the diverse applications of An GS in other bioresources recovery bioprocesses.
基金Supported by National Natural Science Foundation of China,No.874063.
文摘BACKGROUND Keratin 80(KRT80),a type I intermediate filament protein,is a member of the keratin family with specialized functions in epithelial tissues.While KRT80 has been implicated in both normal physiological processes and various diseases,its role in gastric cancer(GC),particularly its expression and prognostic significance,remains poorly understood.In this study,we investigated the role and underlying molecular mechanisms of KRT80 in oxaliplatin resistance in GC.Our analysis revealed that KRT80 is significantly upregulated in GC tissues and is associated with poor clinical prognosis.The role of KRT80 in GC cell proliferation was assessed through in vitro and in vivo assays.AIM To explore the expression of KRT80 in GC and its impact on the prognosis of patients.METHODS KRT80 expression in GC tissues was analyzed using Western blotting,quantitative reverse transcription PCR,multiple immunofluorescence staining,and immunohistochemistry.Survival analysis was conducted using the Kaplan-Meier method with the log-rank test.The role of KRT80 in GC cell proliferation was assessed through in vitro and in vivo assays.Immunoprecipitation and mass spectrometry analyses identified elongation factor 1-alpha 1(EEF1A1)as a binding protein of KRT80.RESULTS Integrating our experimental findings with multiple published studies,we found that increased KRT80 expression is associated with poor prognosis in GC and promotes resistance to oxaliplatin.Moreover,we have preliminarily verified the interaction between KRT80 and EEF1A1.Therefore,this study provides a novel perspective on overcoming oxaliplatin resistance in GC.CONCLUSION Increased KRT80 expression predicts poor prognosis and promotes oxaliplatin resistance in GC,suggesting its potential as a novel prognostic biomarker.
基金supported by grants from the Key R and D Program of Zhejiang(Grant Nos.2022C02032 and 2022C02030)the SanNong JiuFang Science and Technology Cooperation Project of Zhejiang Province(Grant No.2023SNJF008)+1 种基金the Grand Science and Technology Special Project of Zhejiang Province(Grant No.2021C02065)the Science and Technology Plan Project of Jiaxing(Grant No.2023AZ11002).
文摘Hypocotyl length is regarded to be a crucial seedling trait,influencing many subsequent plant development processes.However,little is known about this trait in Brassica campestris syn.Brasscia rapa.Here,we performed a comparative observation on the early hypocotyl development between two cultivars,‘SZQ’belonging to pak-choi(B.campestris ssp.chinensis var.communis)with longer hypocotyls,and‘WTC’belonging to Tacai(B.campestris L.ssp.chinensis var.rosularis)with shortter hypocotyls,and found that the difference in auxin biosynthesis might contribute to the varied hypocotyl phenotype between these two cultivars.By applying GWAS analysis using a total of 226 B.campestris accessions,we identified that the AT-Hook motif nuclear localized(AHL)gene BcAHL24-MF1 contributed to the natural variation in hypocotyl length.Functional variation of BcAHL24-MF1 was attributed to four haplotypes featuring four SNPs within the promoter region,of which Hap I accumulated more transcripts with shorter hypocotyls.Constitutive overexpression of BcAHL24-MF1 in B.campestris caused decreased hypocotyl length under light circumstances and even constant darkness,as BcAHL24-MF1 repressed the PIFmediated transcriptional activation of auxin biosynthesis genes BcYUC6-MF2 and BcYUC8-LF.Our research uncovered the important role of BcAHL24-MF1 in regulating light-triggered inhibition of hypocotyl elongation,therefore presenting a valuable genetic target for crop breeding.
基金financially supported by the National Key R&D Program of China(No.2019YFC1906600)the National Natural Science Foundation of China(No.52000132).
文摘Microbial chain elongation(CE),utilizing anaerobic fermentation for the synthesis of high-value medium chain fatty acids(MCFAs),merges as a promising strategy in resource sustainability.Recently,it has pivoted that the use of different types of additives or accelerantstowards enhancing the products yield and fermentation quality has got much attention,with carbon-based materials emerging as vital facilitators.Based on bibliometrics insights,this paper firstly commences with a comprehensive review of the past two decades’progress in applying carbon-based materials within anaerobic fermentation contexts.Subsequently,the recent advancements made by different research groups in order to enhance the performance of CE systemperformance are reviewed,with particular focus on the application,impact,and underlying mechanisms of carbon-based materials in expediting MCFAs biosynthesis via CE.Finally,the future research direction is prospected,aiming to inform innovative material design and sophisticated technological applications,as well as provide a reference for improving the efficiency of anaerobic fermentation of MCFAs using carbon-based material,thereby contributing to the broader discourse on enhancing sustainability and efficiency in bio-based processes.
文摘BACKGROUND The microcystic,elongated,and fragmented(MELF)pattern of invasion in endometrioid endometrial carcinoma(EEC)is a special mode of myometrial invasion that has been recently recognized by the pathology community.Overex-pression of CXC chemokine receptor 4(CXCR4)in tumor cells contributes to tumor growth,invasion,angiogenesis,metastasis,and recurrence.AIM To explore the correlation between CXCR4 expression in EEC and MELF invasion and clinicopathological features.METHODS A total of 205 EEC patients treated at Peking University People’s Hospital from June 2020 to December 2021 were selected(60 cases with MELF invasion,145 cases without).The clinicopathological features of the two groups were compared,and expression of CXCR4 protein,estrogen receptor,and progesterone receptor was detected and compared by immunohistochemistry.RESULTS EEC with MELF invasion was significantly associated with low tumor grade,lymphovascular space invasion,deep myometrial invasion,cervical stromal involvement,and lymph node metastasis.There was a difference in CXCR4 expression between the two groups,with the MELF group having a significantly higher expression than the non-MELF group.CONCLUSION CXCR4 expression is significantly increased in EEC with MELF invasion and in the MELF invasion area,which may promote tumor invasion and metastasis and has some value for prognostic assessment.
基金supported by the Science and Technology Program in Liaoning Province,China(2022-BS-172)the China Agriculture Research System of MOF and MARA(CARS-06-14.5-A17)the Guiding Funds of the Central Government for the Local Scientific and Technological Development Basic Research Program of Jilin Province,China(202002068JC).
文摘Salt stress is a major constraint to crop productivity and quality.The limited availability of salt-tolerant genes poses significant challenges to breeding programs aimed at enhancing salt tolerance.Sorghum displays a remarkable ability to withstand saline conditions;therefore,elucidating the genetic underpinnings of this trait is crucial.This study entailed a comprehensive resequencing of 186 sorghum accessions to perform a genome-wide association study(GWAS)focusing on relative root length(RL)and root fresh weight(RFW)under salt stress conditions.We identified eight candidate genes within a co-localized region,among which SbTEF1-a gene encoding a transcription elongation factor protein-was deemed a potential candidate due to its annotation and expression pattern alterations under salt stress.Haplotype analysis,gene cloning,linkage disequilibrium(LD)analysis,and allele effect analysis revealed that PAV284,located in the promoter region of SbTEF1,modulated gene expression under salt stress,which,in turn,influenced sorghum seedlings’salt tolerance.PAV284 holds promise as a genetic marker for selecting salt-tolerant germplasm via marker-assisted breeding,enhancing the development of salt-tolerant sorghum cultivars.
基金supported by the Foundation Strengthening Program of China(No.2019-JCJQ-ZD-142-00)the Natural Science Foundation of Hebei Province,China(No.E2021202017)the Foundation of Guangdong Academy of Sciences,China(No.2021GDASYL-20210102002)。
文摘Zn-Al eutectoid alloy(ZA22)has ultra-high damping property,but its mechanical properties are still relatively low.In order to simultaneously improve the tensile strength and plasticity,a novel Al matrix composite inoculant containing in-situ formed Al_(2)O_(3) and Al3Zr particles was designed and used to reinforce the ZA22 alloy.The microstructure of the ZA22 alloy was significantly refined.Fine Al_(2)O_(3) particles were uniformly distributed in theαphase and the lamellar eutectoid structure,whereas Al3Zr particles were distributed in theαphase and at theα/ηinterface.Property tests showed that the tensile mechanical properties of the reinforced ZA22 alloys were significantly improved.The maximum tensile strength and elongation reached 355 MPa and 7.62%,which were 1.50 and 1.89 times those of the original ZA22 alloy,respectively.The increase in mechanical properties is attributed to the multiple strengthening and toughening factors constructed in the refined microstructure.
基金Supported by the National Natural Science Foundation(30460021)the National Nonprofit Institute Research Grant of CATAS-ITBB(ITB-BZD0717)~~
文摘[Objective] The aim of this study was to prepare the recombination protein of rubber elongation factor and its polyclonal antibodies.[Method] The encoding gene of rubber elongation factor(REF)was amplified by RT-PCR,and cloned into the prokaryotic expression vector pDEST17 to transform into Escherichia coil BI2I-AI.The recombinant protein induced by L-Arabinose was purified by the affinity chromatography.As the immunogen,the recombination protein was used to immunize mice for preparing polyclonal antibodies,while ELISA and Western blot hybridization were used to detect the titers and specificity.[Result] The purified recombination protein of REF with high expression was used to immunize house mice for preparing polyclonal antibodies with high titer and specificity.The western blot hybridization showed that the antibody could recognize the natural REF from latex.[Conclusion] The recombination protein of REF was successfully obtained and the mouse anti REF antibody with high titer and specificity was prepared,which lays a basis for further studies on biological functions of rubber elongation factor and other membrane proteins in rubber particles.
基金Project(51335009)supported by the National Natural Science Foundation of ChinaProject(2014JQ7273)supported by the Natural Science Foundation of Shaanxi Province of ChinaProject(CXY1514(1))supported by the Xi’an Science and Technology Plan Projects,China
文摘Semi-solid squeeze casting(SSSC) and liquid squeeze casting(LSC) processes were used to fabricate a ZL104 connecting rod, and the influences of the process parameters on the microstructures and mechanical properties were investigated. Results showed that the tensile strength and elongation of the SSSC-fabricated rod were improved by 22% and 17%, respectively, compared with those of the LSC-fabricated rod. For SSSC, the average particle size(APS) and the shape factor(SF) increased with the increase of re-melting temperature(Tr), whereas the tensile strength and elongation increased first and then decreased. The APS increased with increasing the mold temperature(Tm), whereas the SF increased initially and then decreased, which caused the tensile strength and elongation to increase initially and then decrease. The APS decreased and the SF increased as squeezing pressure(ps) increased, and the mechanical properties were enhanced. Moreover, the optimal Tr, ps and Tm are 848 K, 100 MPa and 523 K, respectively.
