We studied the disinfection effect of a new ultraviolet (UV) sterilizer and its utilization on ultrasound probe surfaces. Carrier quantitative germicidal tests, simulated on-the-spot trials, and organic substance in...We studied the disinfection effect of a new ultraviolet (UV) sterilizer and its utilization on ultrasound probe surfaces. Carrier quantitative germicidal tests, simulated on-the-spot trials, and organic substance influence tests were used to carry out experimental observation. Artificially infected probes were disinfected using the sterilizer or a germicidal lamp for comparison. The total number and types of bacteria were determined and identified. Our results demonstrated the sterilizer had the best disinfection effect among three different disinfection methods in hospital. The sterilizer has been used in a hospital setting for 2 years with no notable damage to the ultrasound probe instrument. It has the advantages of fast disinfection, high disinfection effect, and good compatibility with the ultrasound instrument, worthy of being a promoted application in medical institutions.展开更多
Ozone is a green broad-spectrum bactericidal disinfectant, and a trace amount of ozone in the atmosphere makes many viruses and bacteria lose their biochemical activity and infectivity. Nature produces trace amounts o...Ozone is a green broad-spectrum bactericidal disinfectant, and a trace amount of ozone in the atmosphere makes many viruses and bacteria lose their biochemical activity and infectivity. Nature produces trace amounts of ozone in the air through lightning to purify the ecological environment. The product of ozone decomposition is oxygen, without secondary pollution. Ozone sterilizer is widely used in the epidemic prevention and control of intensive breeding farms and achieved remarkable results. If the concentration and action time of ozone can be accurately controlled, then ozone can quickly eliminate pathogens, without harming the normal cells in the human body. How to use medical ozone for epidemic prevention, treatment and health care is a subject worthy of serious study, which should arouse the attention of the experts in the field.展开更多
The influence on the effectiveness of sterilization by low-temperature plasma sterilizer CASP-80A was investigated so as to provide a theoretical basis for reducing medical costs and achieving ideal sterilization effe...The influence on the effectiveness of sterilization by low-temperature plasma sterilizer CASP-80A was investigated so as to provide a theoretical basis for reducing medical costs and achieving ideal sterilization effectiveness. To conduct the on-site simulation test, a clinical material sterilization test and a test of the influence of organic substance were conducted, the former by using the representative of Bacillus Stearothermophilus, preparing the bacteria-contaminated carrier through polytetrafluoroethylene (PTFE) simulated hose endoscopes, and the latter by using calf serum as the influence factor of the organic substance. The results show that the CASP-80A low-temperature plasma sterilizer could achieve effective sterilization by either the short-cycle or the long-cycle sterilization method depending on different materials, apparatus, and extent of contamination. The organic substances could influence the effectiveness of sterilization by the low-temperature plasma (H2O2) sterilizer.展开更多
Introduction: The aim of this study was to improve the DISTER-UV and to perform microbiological quality control at the biomedical laboratory of the West African Polytechnic University from January 2022 to November 202...Introduction: The aim of this study was to improve the DISTER-UV and to perform microbiological quality control at the biomedical laboratory of the West African Polytechnic University from January 2022 to November 2022. Methodology: During this eleven-month prospective study, we set up a quality control device (QCD). For microbiological quality control, we performed different cultures of bacteria with different bacteriological and morphological characteristics at T0 (no sterilization) and at T30 (after 30 minutes of sterilization under DISTER-UV). Results: After the realization, the DCQ attached to the DISTER-UV1 allows to display of the UV wavelength present in the light box. This device also displays and alerts when the UV intensity emitted by the lamps is below 250 nm. During microbiological quality control, the cultures carried out at T30 and incubated for 24 hours did not reveal any bacterial colonies. This shows the bactericidal character of DISTER-UV-2. Conclusion: The improvement and the microbiological quality control allowed us to switch from DISTER-UV1 (without sensor) to DISTER-UV-2 (with sensor or DCQ). The biological control allowed us to affirm that the DISTER-UV-2 is bactericidal.展开更多
As a critical department ensuring the sterility of hospital instruments,the Sterile Supply Center(SSC)directly impacts the sterility status of clinical instruments through its sterilization qualification rate.Geriatri...As a critical department ensuring the sterility of hospital instruments,the Sterile Supply Center(SSC)directly impacts the sterility status of clinical instruments through its sterilization qualification rate.Geriatric patients,due to physiological decline and compromised immune function,constitute a high-risk group for hospital-acquired infections,with more stringent requirements for instrument sterility.This paper analyzes the current status and influencing factors of sterilization qualification rates in SSCs,explores the mechanistic association between sterilization qualification rates and infections in geriatric departments,and proposes targeted strategies to improve sterilization qualification rates.It highlights the pivotal role of SSC instrument sterilization in infection prevention and control for geriatric patients,providing theoretical basis and practical guidance for optimizing SSC management,reducing infection rates in geriatric departments,and ensuring the safety of elderly patients’medical care.These findings aim to enhance overall infection management standards in hospitals.展开更多
Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther developmen...Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther development and male fertility remains unclear.Analyzing lipid molecules related to anther fertility and genes responsible for their biosynthesis is crucial for understanding the physiological significance of lipid metabolism in crop fertility.In this study,we compared the transcriptome and the composition and content of lipids in anthers of two upland cotton(Gossypium hirsutum) materials,Shida 98(WT) and its nearly-isogenic male sterile line Shida 98A(MS).Transcriptomics analysis identified many differentially expressed genes(DEGs) between the two materials,with the genes of the alpha-linolenic acid metabolism pathway being the most significantly associated with the male sterility phenotype.Investigations on lipids revealed that the MS anthers over-accumulated free fatty acids(FFAs),phosphatidic acid(PA),mono-and di-galactosyldiacylglycerol(MGDG and DGDG),and had a decreased content of triacylglycerol(TAG),which was closely related to the abnormal metabolism of alpha-linolenic acid(C18:3);therefore,the major lipids containing C18:3-acyl chains,such as PA,MGDG,DGDG,and TAG,are proposed to play a major role in cotton anther development.We also showed that an excessive level of MGDG and DGDG caused jasmonic acid(JA) overaccumulation in MS anthers,which in turn inhibited the expression of GhFAD3 and consequently reduced the C18:3 content,presumably via a feedback regulation mechanism,ultimately affecting plant fertility.Together,our results revealed the importance of a balanced lipid metabolism in regulating the development of cotton anther and pollen and consequently male fertility.展开更多
The integration of accurate detection and immediate bactericidal in a single platform significantly enhances pathogen monitoring and control capabilities,but nanomaterial functional compatibility remains a major chall...The integration of accurate detection and immediate bactericidal in a single platform significantly enhances pathogen monitoring and control capabilities,but nanomaterial functional compatibility remains a major challenge.Here,we developed a multifunctional nanoplatform integrating multimode flexible detection and magnetic aggregation-induced sterilization by utilizing the synergistic effect of quinone-phenol grafting nanozymes loaded with Pt single atoms(Pt SA@Q-ACDs)and magnetic carbon dots(Fe_(3)O_(4)@DCDs).In Pt SA@Q-ACDs,Pt SA increased the electron transfer from the quinone-phenol system,and the hydroxyl and pyridine state N defects sequentially synergized to form a double anchor site,the energy barrier for reducing H_(2)O_(2) was reduced,constituting a"1+1>2"bicatalytic system,which improved signal output and sterilization efficiency.Fe_(3)O_(4)@DCD enriches target bacteria through magnetic induction,dramatically reduces background interference,and increases the sterilization efficiency to 100%while realizing the detection of pathogenic bacteria at the single-cell level.Complementing this,we designed an intelligent portable device capable of dynamically switching and interpreting multimodal signals,enabling adaptable field deployment.The multifunctional platform can realize early warning from food processing to the terminal,combined with high bactericidal efficiency,and can implement"closed-loop monitoring"for pathogenic bacteria in an all-round way,which has great potential.展开更多
Mammalian sterile-20-like kinase 1(MST1)is a core component of the Hippo signaling pathway.A previous study of 24 patients with MST1 deficiency revealed that more than half of the patients presented symptoms of airway...Mammalian sterile-20-like kinase 1(MST1)is a core component of the Hippo signaling pathway.A previous study of 24 patients with MST1 deficiency revealed that more than half of the patients presented symptoms of airway hyperresponsiveness and atopic dermatitis.We also found significantly reduced MST1 expression in patients with allergies and in mouse models of allergic asthma,suggesting that aberrant MST1 expression may be broadly relevant to allergic diseases.However,the specific mechanism by which MST1 may be related to allergic disorders has remained unclear.In our study,Mst1^(-/-)mice displayed exacerbated IgE-mediated allergic responses,including passive systemic and cutaneous anaphylaxis.More intriguingly,mast cell-deficient Kit^(W-sh/W-sh) mice reconstituted with Mst1^(-/-)bone marrow-derived mast cells(BMMCs)also presented aggravated IgE-mediated hypersensitivity reactions and mast cell-dependent asthma.MST1 deficiency notably promoted inflammatory cytokine production,cell degranulation,and intracellular calcium mobilization in FcεRI-stimulated BMMCs.Mechanistically,MST1 facilitates SRC homology domain-containing tyrosine phosphatase-1(SHP-1)-mediated dephosphorylation of LCK/YES-related protein tyrosine kinase(LYN)at Y397 to repress FcɛRI signaling.Coimmunoprecipitation studies revealed that MST1 acts as a scaffold molecule to enhance the interaction between SHP-1 and LYN in a kinase activity-independent manner.Two patient-derived mutants presented significantly reduced intracellular protein expression levels and impaired LYN-SHP-1 interactions.Our study reveals a noncanonical role of MST1 in maintaining immune homeostasis by preventing mast cell-mediated hypersensitivity.This likely explains the increased susceptibility to allergic diseases in MST1-deficient patients.展开更多
Mutations and rearrangements of mitochondrial genes cause plant cytoplasmic male sterility. It is a significant way to utilize hybrid vigor to enhance crop yield. Ogu cytoplasmic male sterility(CMS) is a natural cytop...Mutations and rearrangements of mitochondrial genes cause plant cytoplasmic male sterility. It is a significant way to utilize hybrid vigor to enhance crop yield. Ogu cytoplasmic male sterility(CMS) is a natural cytoplasmic male sterility type discovered in radishes, being successfully transferred to rapeseed and cruciferous vegetables. However, current studies lack depth in exploring the molecular mechanisms of its male sterility. This study confirmed that orf138 is the causal gene for Ogu CMS through the genetic transformation in Arabidopsis. Transcriptome analysis of aborted anthers in different stages suggested that differentially expressed genes(DEGs) are mainly enriched in pathways such as glycerophospholipid metabolism and arginine and proline metabolism. It reveals that key genes involved in lipid metabolism pathways are significantly down-regulated in the sterile line(OguA), including BnaGPAT1, localized within the tapetum mitochondrial and endoplasmic reticulum. This could lead to changes in the metabolism of substances like acylglycerols within the tapetum, causing disruptions in lipid metabolism. This is consistent with morphological and subcellular structural changes in the tapetum and microspore cells, as observed in the transmission electron microscopy. This abnormal lipid metabolism may trigger specific reactive oxygen species(ROS) accumulation in an oxidative stress response, ultimately leading to an aborted microspore. Our study based on transcriptome has deepened our understanding of the molecular mechanisms in Ogu CMS.展开更多
Honglian type-cytoplasmic male sterility(HL-CMS)is caused by the inter-communication between the nucleus and mitochondria.However,the mechanisms by which sterility genes regulate metabolic alterations and changes in m...Honglian type-cytoplasmic male sterility(HL-CMS)is caused by the inter-communication between the nucleus and mitochondria.However,the mechanisms by which sterility genes regulate metabolic alterations and changes in mitochondrial morphology in the pollen of HL-CMS remain unclear.In this study,we compared the morphological differences between the pollen of the male sterile line YA and the near-isogenic line NIL-Rf6 using hematoxylin-eosin staining and 4ʹ,6-diamidino-2-phenylindole(DAPI)staining.HL-CMS is characterized by gametophytic sterility,where the aborted pollen grains are empty,and the tapetal layer remains intact.Transmission electron microscopy was employed to observe mitochondrial morphological changes at the microspore stage,revealing significant mitochondrial alterations,characterized by the formation of'large spherical mitochondria',occurred at the binucleate stage in the YA line.Additionally,metabolomics analysis revealed decreased levels of metabolites associated with the carbohydrate and flavonoid pathways.Notably,the decrease in flavonoids was found to contribute to an elevation in reactive oxygen species(ROS)levels.Therefore,we propose a model in which rice fertility is modulated by the levels of pollen carbohydrates and flavonoid metabolites,with impaired mitochondrial energy production and reduced flavonoid biosynthesis as the main causes of ROS accumulation and pollen abortion in rice.展开更多
Bacterial contamination and marine biofouling are directly or indirectly impacting the economy,environment,and human health worldwide.Photocatalytic sterilization and antifouling technology is an effective method to p...Bacterial contamination and marine biofouling are directly or indirectly impacting the economy,environment,and human health worldwide.Photocatalytic sterilization and antifouling technology is an effective method to prevent microbial contamination and corrosion.Due to its eco-friendly nature,broad-spectrum bactericidal properties,and high efficiency,this method has recently received much attention.In this review,we have comprehensively discussed the photoinduced charge carriers transfer,main reactive oxygen species(ROS),the interactions among photocatalysts and microorganisms,as well as various antibacterial mechanisms such as oxidative stress,physical/mechanical destruction,photothermal effect,piezoelectric field effect,and triboelectric field.Different types of semiconductors,including TiO_(2),ZnO,CeO_(2),Cu-based semiconductors,Bi-based semiconductors,Ag-based semiconductors,g-C_(3)N_(4),MOF,and containing phosphorus photocatalysts are summarized in photocatalytic sterilization and antifouling activity.Besides,various improvement methods including morphological control,crystallizing,doping engineering,loading cocatalyst,and constructing heterojunction are discussed.Furthermore,a strategy for dramatically improving practice applications is proposed for the possibility of further antifouling applications.Challenges and prospects for the photocatalytic sterilization and antifouling method are also discussed to highlight design considerations.展开更多
High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-d...High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-doped porous tubular g-C_(3)N_(4)(ZCN) was successfully obtained via a template-free,one-step calcination method,exhibiting excellent photocatalytic performance.The confinement of the pore walls suppresses the Zn atom'smigration and aggregation,enhancing the Zn single-atom stability.ZCN exhibited excellent photodegradation performance against tetracycline with outstanding stability.Moreover,ZCN displayed remarkable sterilization performance,achieving a 100%inactivation of Staphylococcus aureus within 90 min of visible-light exposure.Density functional theory calculations demonstrated that the Zn single-atom sites act as pivotal photocatalytic active sites,with the presence of Zn single atoms notably augmenting charge separation efficiency.This work provides a novel approach for managing photocatalytic efficiency through enlarging single-atom doping,offering an avenue for pollutant photodegradation and sterilization.展开更多
The strategic design and synthesis of photothermal/photocatalytic materials are pivotal to realizing photothermal conversion water evaporation coupled with photocatalytic sewage purification functions.In this work,bas...The strategic design and synthesis of photothermal/photocatalytic materials are pivotal to realizing photothermal conversion water evaporation coupled with photocatalytic sewage purification functions.In this work,based on the principle of three primary colors,brick-red g-C_(3)N_(4)/Ag_(2)CrO_(4)composite was loaded onto a green polyurethane(PU)sponge using polyvinyl alcohol(PVA)as the linking agent.The resultant PU/PVA/g-C_(3)N_(4)/Ag_(2)CrO_(4)composite exhibits outstanding performance in simultaneous photothermal/photocatalytic water evaporation,pollutant degradation,sterilization,and thermoelectric generation.Under 1.0 kW m^(-2)irradiation,the water evaporation rate reaches 3.19 kg m^(-2)h-1,while a single thermoelectric module generates a maximum thermoelectric output power of 0.25 W m^(-2).Concurrently,rhodamine B(RhB)at a concentration of 4.0×10^(-4)mol L^(-1)undergoes complete photocatalytic degradation within 40 min.When the light intensity is 2.0 kW m^(-2),the evaporation rate soars to 8.52 kg m^(-2)h^(-1),and the thermoelectric power output increases to 1.1 W m^(-2).Furthermore,this photothermal/photocatalytic material based on the principle of three primary colors has excellent photothermal/photocatalytic antibacterial activity against Escherichia coli.By abandoning black light-absorbing materials,more active sites of the photocatalyst can be exposed.The g-C_(3)N_(4)/Ag_(2)CrO_(4)heterojunction accelerates the separation of photogenerated carriers,while the hydrophilic groups in the photothermal/photocatalytic materials reduce the water evaporation enthalpy.This research provides a novel approach for fabricating multi-function photothermal/photocatalytic materials,which could quicken the development of solution to freshwater and electricity energy shortages as well as environmental pollution issues.展开更多
Male sterile lines serve as a pivotal tool in plant breeding,offering an effective strategy for developing hybrid cultivars.In cucumber(Cucumis sativus L.),the creation of male sterile lines,most of which exhibit abno...Male sterile lines serve as a pivotal tool in plant breeding,offering an effective strategy for developing hybrid cultivars.In cucumber(Cucumis sativus L.),the creation of male sterile lines,most of which exhibit abnormal pollen development,is essential for harnessing heterosis.Accumulating evidence suggests that male sterility in plants is linked to the overaccumulation of Reactive Oxygen Species(ROS),which causes oxidative damage to biomolecules and cellular structures,ultimately leading to aberrant anther development(Li et al.,2004).展开更多
As globalization accelerates,microbial contamination in the built environment poses a major public health challenge.Especially since Corona Virus Disease 2019(COVID-19),microbial sterilization technology has become a ...As globalization accelerates,microbial contamination in the built environment poses a major public health challenge.Especially since Corona Virus Disease 2019(COVID-19),microbial sterilization technology has become a crucial research area for indoor air pollution control in order to create a hygienic and safe built environment.Based on this,the study reviews sterilization technologies in the built environment,focusing on the principles,efficiency and applicability,revealing advantages and limitations,and summarizing current research advances.Despite the efficacy of single sterilization technologies in specific environments,the corresponding side effects still exist.Thus,this review highlights the efficiency of hybrid sterilization technologies,providing an in-depth understanding of the practical application in the built environment.Also,it presents an outlook on the future direction of sterilization technology,including the development of new methods that are more efficient,energy-saving,and targeted to better address microbial contamination in the complex and changing built environment.Overall,this study provides a clear guide for selecting technologies to handle microbial contamination in different building environments in the future,as well as a scientific basis for developing more effective air quality control strategies.展开更多
Male dzo from the F1 to F3 generations are sterile,which impedes the utilization of hybrid vigor in dzo and constrains the development of plateau animal husbandry in China.The underlying mechanism of this phenomenon h...Male dzo from the F1 to F3 generations are sterile,which impedes the utilization of hybrid vigor in dzo and constrains the development of plateau animal husbandry in China.The underlying mechanism of this phenomenon has long been a focal point in yak crossbreeding improvement research.This review summarizes the mechanisms underlying male sterility in dzo from histological,physiological,and multi-omics perspectives,providing research directions for further exploration of the mechanisms of male sterility in dzo.展开更多
The factors affecting the behavior of non-specialized nectar-feeding passerines have received little attention in the literature on plant-pollinator interactions. Puya chilensis (Bromeliaceae) has sterile branch apice...The factors affecting the behavior of non-specialized nectar-feeding passerines have received little attention in the literature on plant-pollinator interactions. Puya chilensis (Bromeliaceae) has sterile branch apices that project outward from the inflorescence. In this study, we evaluate the functional role of sterile apices as support systems for bird foraging behavior. We recorded bird visitation and flower probing in the presence and absence of sterile branches during the spring seasons of 2021 and 2024. The results revealed that experimental plants with excised branches received fewer bird visits and flower probings than control plants, indicating that sterile branches play an important role in the nectar-feeding behavior of passerine birds in P. chilensis.展开更多
Photocatalytic disinfection is an eco-friendly strategy for countering bacterial pollution in aquatic environments.Numerous strategies have been devised to facilitate the generation of reactive oxygen species(ROS)with...Photocatalytic disinfection is an eco-friendly strategy for countering bacterial pollution in aquatic environments.Numerous strategies have been devised to facilitate the generation of reactive oxygen species(ROS)within photocatalysts,ultimately leading to the eradication of bacteria.However,the significance of the physical morphology of photocatalysts in the context of sterilization is frequently obscured,and the progress in the development of physical-chemical synergistic sterilization photocatalysts has been relatively limited.Herein,graphitic carbon nitride(g-C_(3)N_(4))is chemically protonated to expose more sharp edges.PL fluorescence and EIS results indicate that the protonation can accelerate photogenerated carrier separation and enhance ROS production.Meanwhile,the sharp edges on the protonated g-C_(3)N_(4)facilitate the physical disruption of cell walls for further promoting oxidative damage.Protonated C_(3)N_(4)demonstrated superior bactericidal performance than that of pristine g-C_(3)N_(4),effectively eliminating Escherichia coli within 40 minutes under irradiation.This work highlights the significance of incorporating physical and chemical synergies in photocatalyst design to enhance the disinfection efficiency of photocatalysis.展开更多
This study examined the effects of pasteurization(PAS),ultrasonic sterilization(ULS),and microwave sterilization(MWS)on the quality and storage characteristics of brine-fermented tofu(BFT)and fermented tofu(FT).Compar...This study examined the effects of pasteurization(PAS),ultrasonic sterilization(ULS),and microwave sterilization(MWS)on the quality and storage characteristics of brine-fermented tofu(BFT)and fermented tofu(FT).Comparative analysis revealed that MWS had a negligible detrimental effect on the structural integrity and organoleptic properties of BFT and FT,while effectively maintaining its water-holding capacity(WHC)and exhibiting the least impact on its texture.In contrast,PAS and ULS increased hardness and chewiness significantly(P<0.05),but ULS also enhanced the brightness of tofu.Throughout the storage period,the WHC,elasticity,and sensory properties of tofu generally decreased,whereas the hardness and chewiness increased.PAS-BFT and MWS-FT maintained sensory quality for the longest periods of 14 and 12 days respectively,and could be decomposed to more small molecule peptides within 0–8 days and 0–6 days,which are more easily to be absorbed by the body.The findings discovered that MWS is the most suitable method for sterilization of tofu,with superior capability in maintaining the quality,extending shelf life,and improving digestibility of tofu.展开更多
As a prerequisite for sexual reproduction,gametophyte development is an interesting process involving cell proliferation,differentiation and specialization.Gametogenesis has been extensively explored in model plants,b...As a prerequisite for sexual reproduction,gametophyte development is an interesting process involving cell proliferation,differentiation and specialization.Gametogenesis has been extensively explored in model plants,but the regulatory mechanism of gametophyte development largely remains unknown in Cucurbitaceae species.In present study,we have shown that watermelon ClBBM and ClPLT2,two AP2/ERF transcription factors,participated in both male and female gametophyte development.Clbbm and Clplt2 single mutants resembled wild-type phenotypes in both vegetative and reproductive development.But Clbbm/Clplt2 double mutant showed partial pollen abortion and bore less seeds comparing to WT.Our results indicated that the abnormal pollen grains were caused by premature tapetum degeneration,and reduced seed-set was due to faulty embryo sac development.ClBBM and ClPLT2 were expressed in FG4 embryo sacs,and their transcripts were also detectable in the tapetum and microspore of stage 9 anthers,which was consistent with developmental stages of defective phenotypes observed in double mutant.The expression of genes essential for tapetum development,ClATM1,ClAMS,ClMS1 and ClMS188,was decreased in Clbbm/Clplt2 double mutants.Moreover,the transcriptome analysis indicated that ClBBM and ClPLT2 participated in tapetum and pollen wall development by regulate cell cycle,transmembrane transport,glucan and cellulose metabolic process.Collectively,ClBBM and ClPLT2 were functionally redundant in regulating gametophyte development in watermelon,and their functions differ from their homologous genes in model plant Arabidopsis.展开更多
基金supported by Hunan Health and Family Planning Commission program[C2017060]
文摘We studied the disinfection effect of a new ultraviolet (UV) sterilizer and its utilization on ultrasound probe surfaces. Carrier quantitative germicidal tests, simulated on-the-spot trials, and organic substance influence tests were used to carry out experimental observation. Artificially infected probes were disinfected using the sterilizer or a germicidal lamp for comparison. The total number and types of bacteria were determined and identified. Our results demonstrated the sterilizer had the best disinfection effect among three different disinfection methods in hospital. The sterilizer has been used in a hospital setting for 2 years with no notable damage to the ultrasound probe instrument. It has the advantages of fast disinfection, high disinfection effect, and good compatibility with the ultrasound instrument, worthy of being a promoted application in medical institutions.
文摘Ozone is a green broad-spectrum bactericidal disinfectant, and a trace amount of ozone in the atmosphere makes many viruses and bacteria lose their biochemical activity and infectivity. Nature produces trace amounts of ozone in the air through lightning to purify the ecological environment. The product of ozone decomposition is oxygen, without secondary pollution. Ozone sterilizer is widely used in the epidemic prevention and control of intensive breeding farms and achieved remarkable results. If the concentration and action time of ozone can be accurately controlled, then ozone can quickly eliminate pathogens, without harming the normal cells in the human body. How to use medical ozone for epidemic prevention, treatment and health care is a subject worthy of serious study, which should arouse the attention of the experts in the field.
文摘The influence on the effectiveness of sterilization by low-temperature plasma sterilizer CASP-80A was investigated so as to provide a theoretical basis for reducing medical costs and achieving ideal sterilization effectiveness. To conduct the on-site simulation test, a clinical material sterilization test and a test of the influence of organic substance were conducted, the former by using the representative of Bacillus Stearothermophilus, preparing the bacteria-contaminated carrier through polytetrafluoroethylene (PTFE) simulated hose endoscopes, and the latter by using calf serum as the influence factor of the organic substance. The results show that the CASP-80A low-temperature plasma sterilizer could achieve effective sterilization by either the short-cycle or the long-cycle sterilization method depending on different materials, apparatus, and extent of contamination. The organic substances could influence the effectiveness of sterilization by the low-temperature plasma (H2O2) sterilizer.
文摘Introduction: The aim of this study was to improve the DISTER-UV and to perform microbiological quality control at the biomedical laboratory of the West African Polytechnic University from January 2022 to November 2022. Methodology: During this eleven-month prospective study, we set up a quality control device (QCD). For microbiological quality control, we performed different cultures of bacteria with different bacteriological and morphological characteristics at T0 (no sterilization) and at T30 (after 30 minutes of sterilization under DISTER-UV). Results: After the realization, the DCQ attached to the DISTER-UV1 allows to display of the UV wavelength present in the light box. This device also displays and alerts when the UV intensity emitted by the lamps is below 250 nm. During microbiological quality control, the cultures carried out at T30 and incubated for 24 hours did not reveal any bacterial colonies. This shows the bactericidal character of DISTER-UV-2. Conclusion: The improvement and the microbiological quality control allowed us to switch from DISTER-UV1 (without sensor) to DISTER-UV-2 (with sensor or DCQ). The biological control allowed us to affirm that the DISTER-UV-2 is bactericidal.
文摘As a critical department ensuring the sterility of hospital instruments,the Sterile Supply Center(SSC)directly impacts the sterility status of clinical instruments through its sterilization qualification rate.Geriatric patients,due to physiological decline and compromised immune function,constitute a high-risk group for hospital-acquired infections,with more stringent requirements for instrument sterility.This paper analyzes the current status and influencing factors of sterilization qualification rates in SSCs,explores the mechanistic association between sterilization qualification rates and infections in geriatric departments,and proposes targeted strategies to improve sterilization qualification rates.It highlights the pivotal role of SSC instrument sterilization in infection prevention and control for geriatric patients,providing theoretical basis and practical guidance for optimizing SSC management,reducing infection rates in geriatric departments,and ensuring the safety of elderly patients’medical care.These findings aim to enhance overall infection management standards in hospitals.
基金supported by the Science and Technology Major Program of Bingtuan,China (2023AA008)the National Natural Science Foundation of China (31960369)+1 种基金the Bingtuan Science and Technology Program,China (2025DA001)the Henan Provincial Science and Technology Research Project,China (222102110200)。
文摘Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther development and male fertility remains unclear.Analyzing lipid molecules related to anther fertility and genes responsible for their biosynthesis is crucial for understanding the physiological significance of lipid metabolism in crop fertility.In this study,we compared the transcriptome and the composition and content of lipids in anthers of two upland cotton(Gossypium hirsutum) materials,Shida 98(WT) and its nearly-isogenic male sterile line Shida 98A(MS).Transcriptomics analysis identified many differentially expressed genes(DEGs) between the two materials,with the genes of the alpha-linolenic acid metabolism pathway being the most significantly associated with the male sterility phenotype.Investigations on lipids revealed that the MS anthers over-accumulated free fatty acids(FFAs),phosphatidic acid(PA),mono-and di-galactosyldiacylglycerol(MGDG and DGDG),and had a decreased content of triacylglycerol(TAG),which was closely related to the abnormal metabolism of alpha-linolenic acid(C18:3);therefore,the major lipids containing C18:3-acyl chains,such as PA,MGDG,DGDG,and TAG,are proposed to play a major role in cotton anther development.We also showed that an excessive level of MGDG and DGDG caused jasmonic acid(JA) overaccumulation in MS anthers,which in turn inhibited the expression of GhFAD3 and consequently reduced the C18:3 content,presumably via a feedback regulation mechanism,ultimately affecting plant fertility.Together,our results revealed the importance of a balanced lipid metabolism in regulating the development of cotton anther and pollen and consequently male fertility.
基金supported by the National Key Research and Development Program,China(2022YFF1100702,2022YFF1100703)the National Natu-ral Science Foundation of China(32230084,32102104)+1 种基金the Guangdong Provincial Key Research and Development Project(2022B11l1040002)the Anhui Natural Science Foundation(2208085J11).
文摘The integration of accurate detection and immediate bactericidal in a single platform significantly enhances pathogen monitoring and control capabilities,but nanomaterial functional compatibility remains a major challenge.Here,we developed a multifunctional nanoplatform integrating multimode flexible detection and magnetic aggregation-induced sterilization by utilizing the synergistic effect of quinone-phenol grafting nanozymes loaded with Pt single atoms(Pt SA@Q-ACDs)and magnetic carbon dots(Fe_(3)O_(4)@DCDs).In Pt SA@Q-ACDs,Pt SA increased the electron transfer from the quinone-phenol system,and the hydroxyl and pyridine state N defects sequentially synergized to form a double anchor site,the energy barrier for reducing H_(2)O_(2) was reduced,constituting a"1+1>2"bicatalytic system,which improved signal output and sterilization efficiency.Fe_(3)O_(4)@DCD enriches target bacteria through magnetic induction,dramatically reduces background interference,and increases the sterilization efficiency to 100%while realizing the detection of pathogenic bacteria at the single-cell level.Complementing this,we designed an intelligent portable device capable of dynamically switching and interpreting multimodal signals,enabling adaptable field deployment.The multifunctional platform can realize early warning from food processing to the terminal,combined with high bactericidal efficiency,and can implement"closed-loop monitoring"for pathogenic bacteria in an all-round way,which has great potential.
基金supported by grants from the National Natural Science Foundation of China(8187060308,U22A20307,and 81930041)the Key R&D Program of Zhejiang Province(2024C03177)+1 种基金the Noncommunicable Chronic Diseases-National Science and Technology Major Project(2024ZD0541200)the Natural Science Foundation of Zhejiang Province(LZ24H100001).
文摘Mammalian sterile-20-like kinase 1(MST1)is a core component of the Hippo signaling pathway.A previous study of 24 patients with MST1 deficiency revealed that more than half of the patients presented symptoms of airway hyperresponsiveness and atopic dermatitis.We also found significantly reduced MST1 expression in patients with allergies and in mouse models of allergic asthma,suggesting that aberrant MST1 expression may be broadly relevant to allergic diseases.However,the specific mechanism by which MST1 may be related to allergic disorders has remained unclear.In our study,Mst1^(-/-)mice displayed exacerbated IgE-mediated allergic responses,including passive systemic and cutaneous anaphylaxis.More intriguingly,mast cell-deficient Kit^(W-sh/W-sh) mice reconstituted with Mst1^(-/-)bone marrow-derived mast cells(BMMCs)also presented aggravated IgE-mediated hypersensitivity reactions and mast cell-dependent asthma.MST1 deficiency notably promoted inflammatory cytokine production,cell degranulation,and intracellular calcium mobilization in FcεRI-stimulated BMMCs.Mechanistically,MST1 facilitates SRC homology domain-containing tyrosine phosphatase-1(SHP-1)-mediated dephosphorylation of LCK/YES-related protein tyrosine kinase(LYN)at Y397 to repress FcɛRI signaling.Coimmunoprecipitation studies revealed that MST1 acts as a scaffold molecule to enhance the interaction between SHP-1 and LYN in a kinase activity-independent manner.Two patient-derived mutants presented significantly reduced intracellular protein expression levels and impaired LYN-SHP-1 interactions.Our study reveals a noncanonical role of MST1 in maintaining immune homeostasis by preventing mast cell-mediated hypersensitivity.This likely explains the increased susceptibility to allergic diseases in MST1-deficient patients.
基金supported by the National Natural Science Foundation of China (31930032)。
文摘Mutations and rearrangements of mitochondrial genes cause plant cytoplasmic male sterility. It is a significant way to utilize hybrid vigor to enhance crop yield. Ogu cytoplasmic male sterility(CMS) is a natural cytoplasmic male sterility type discovered in radishes, being successfully transferred to rapeseed and cruciferous vegetables. However, current studies lack depth in exploring the molecular mechanisms of its male sterility. This study confirmed that orf138 is the causal gene for Ogu CMS through the genetic transformation in Arabidopsis. Transcriptome analysis of aborted anthers in different stages suggested that differentially expressed genes(DEGs) are mainly enriched in pathways such as glycerophospholipid metabolism and arginine and proline metabolism. It reveals that key genes involved in lipid metabolism pathways are significantly down-regulated in the sterile line(OguA), including BnaGPAT1, localized within the tapetum mitochondrial and endoplasmic reticulum. This could lead to changes in the metabolism of substances like acylglycerols within the tapetum, causing disruptions in lipid metabolism. This is consistent with morphological and subcellular structural changes in the tapetum and microspore cells, as observed in the transmission electron microscopy. This abnormal lipid metabolism may trigger specific reactive oxygen species(ROS) accumulation in an oxidative stress response, ultimately leading to an aborted microspore. Our study based on transcriptome has deepened our understanding of the molecular mechanisms in Ogu CMS.
基金supported by the National Natural Science Foundation of China(Grant No.32472185)the Key Research and Development Program of Hubei Province,China(Grant No.2022BFE003)the Hubei Agriculture Science and Technology Innovation Center program,and the National Rice Industry Technology System,China(Grant No.CARS-01-07).
文摘Honglian type-cytoplasmic male sterility(HL-CMS)is caused by the inter-communication between the nucleus and mitochondria.However,the mechanisms by which sterility genes regulate metabolic alterations and changes in mitochondrial morphology in the pollen of HL-CMS remain unclear.In this study,we compared the morphological differences between the pollen of the male sterile line YA and the near-isogenic line NIL-Rf6 using hematoxylin-eosin staining and 4ʹ,6-diamidino-2-phenylindole(DAPI)staining.HL-CMS is characterized by gametophytic sterility,where the aborted pollen grains are empty,and the tapetal layer remains intact.Transmission electron microscopy was employed to observe mitochondrial morphological changes at the microspore stage,revealing significant mitochondrial alterations,characterized by the formation of'large spherical mitochondria',occurred at the binucleate stage in the YA line.Additionally,metabolomics analysis revealed decreased levels of metabolites associated with the carbohydrate and flavonoid pathways.Notably,the decrease in flavonoids was found to contribute to an elevation in reactive oxygen species(ROS)levels.Therefore,we propose a model in which rice fertility is modulated by the levels of pollen carbohydrates and flavonoid metabolites,with impaired mitochondrial energy production and reduced flavonoid biosynthesis as the main causes of ROS accumulation and pollen abortion in rice.
基金funded by the National Natural Science Foundation of China(No.42076044)the Key Research Program of Frontier Sciences,CAS(No.ZDBS-LY-DQC025)+5 种基金the Key R&D Program of Shandong Province,China(No.2022CXPT027)the Chinese Academy of Sciences President’s International Fellowship Initiative(No.2023VEA0007)the Postdoctoral Fellowship Program of CPSF(No.GZB20230769)the China Postdoctoral Science Foundation(No.2023M743529)the Shandong Postdoctoral Science Foundation(No.SDBX202302014)Excellent Postdoctoral Incentive Program of Chinese Academy of Sciences,and Qingdao Postdoctoral Science Foundation(No.QDBSH20230202117).
文摘Bacterial contamination and marine biofouling are directly or indirectly impacting the economy,environment,and human health worldwide.Photocatalytic sterilization and antifouling technology is an effective method to prevent microbial contamination and corrosion.Due to its eco-friendly nature,broad-spectrum bactericidal properties,and high efficiency,this method has recently received much attention.In this review,we have comprehensively discussed the photoinduced charge carriers transfer,main reactive oxygen species(ROS),the interactions among photocatalysts and microorganisms,as well as various antibacterial mechanisms such as oxidative stress,physical/mechanical destruction,photothermal effect,piezoelectric field effect,and triboelectric field.Different types of semiconductors,including TiO_(2),ZnO,CeO_(2),Cu-based semiconductors,Bi-based semiconductors,Ag-based semiconductors,g-C_(3)N_(4),MOF,and containing phosphorus photocatalysts are summarized in photocatalytic sterilization and antifouling activity.Besides,various improvement methods including morphological control,crystallizing,doping engineering,loading cocatalyst,and constructing heterojunction are discussed.Furthermore,a strategy for dramatically improving practice applications is proposed for the possibility of further antifouling applications.Challenges and prospects for the photocatalytic sterilization and antifouling method are also discussed to highlight design considerations.
基金financially supported by the National Key Research and Development Program of China(No.2023YFF0612601)the Key Research and Development Program of Zhejiang Province(No.2023C02038)+2 种基金the Key Research and Development Program of Ningbo(No.2022Z178)China Construction Technology Research and Development Project(No.CSCEC-2021-Z-5)Zhejiang Provincial Natural Science Foundation of China(No.LQ23B010003)
文摘High-concentration single-atom doping remains a formidable challenge due to the propensity for single atoms to form clusters or aggregate at elevated concentrations.Herein,high-concentration (10.8 wt%) Zn singleatom-doped porous tubular g-C_(3)N_(4)(ZCN) was successfully obtained via a template-free,one-step calcination method,exhibiting excellent photocatalytic performance.The confinement of the pore walls suppresses the Zn atom'smigration and aggregation,enhancing the Zn single-atom stability.ZCN exhibited excellent photodegradation performance against tetracycline with outstanding stability.Moreover,ZCN displayed remarkable sterilization performance,achieving a 100%inactivation of Staphylococcus aureus within 90 min of visible-light exposure.Density functional theory calculations demonstrated that the Zn single-atom sites act as pivotal photocatalytic active sites,with the presence of Zn single atoms notably augmenting charge separation efficiency.This work provides a novel approach for managing photocatalytic efficiency through enlarging single-atom doping,offering an avenue for pollutant photodegradation and sterilization.
基金supported by the National Natural Science Foundation of China(52372234)the Research Foundation for Talented Scholars of Linyi University(Z6122010).
文摘The strategic design and synthesis of photothermal/photocatalytic materials are pivotal to realizing photothermal conversion water evaporation coupled with photocatalytic sewage purification functions.In this work,based on the principle of three primary colors,brick-red g-C_(3)N_(4)/Ag_(2)CrO_(4)composite was loaded onto a green polyurethane(PU)sponge using polyvinyl alcohol(PVA)as the linking agent.The resultant PU/PVA/g-C_(3)N_(4)/Ag_(2)CrO_(4)composite exhibits outstanding performance in simultaneous photothermal/photocatalytic water evaporation,pollutant degradation,sterilization,and thermoelectric generation.Under 1.0 kW m^(-2)irradiation,the water evaporation rate reaches 3.19 kg m^(-2)h-1,while a single thermoelectric module generates a maximum thermoelectric output power of 0.25 W m^(-2).Concurrently,rhodamine B(RhB)at a concentration of 4.0×10^(-4)mol L^(-1)undergoes complete photocatalytic degradation within 40 min.When the light intensity is 2.0 kW m^(-2),the evaporation rate soars to 8.52 kg m^(-2)h^(-1),and the thermoelectric power output increases to 1.1 W m^(-2).Furthermore,this photothermal/photocatalytic material based on the principle of three primary colors has excellent photothermal/photocatalytic antibacterial activity against Escherichia coli.By abandoning black light-absorbing materials,more active sites of the photocatalyst can be exposed.The g-C_(3)N_(4)/Ag_(2)CrO_(4)heterojunction accelerates the separation of photogenerated carriers,while the hydrophilic groups in the photothermal/photocatalytic materials reduce the water evaporation enthalpy.This research provides a novel approach for fabricating multi-function photothermal/photocatalytic materials,which could quicken the development of solution to freshwater and electricity energy shortages as well as environmental pollution issues.
基金supported by the Project of National Key Research and Development Program‘Strategic Science and Technology Innovation Cooperation’Key Special Project(Grant No.2023YFE0206900)the 2115 Talent Development Program of China Agricultural University,the 111 project(B17043)the Project of Yazhouwan Scientific,Technological Administration of Sanya.
文摘Male sterile lines serve as a pivotal tool in plant breeding,offering an effective strategy for developing hybrid cultivars.In cucumber(Cucumis sativus L.),the creation of male sterile lines,most of which exhibit abnormal pollen development,is essential for harnessing heterosis.Accumulating evidence suggests that male sterility in plants is linked to the overaccumulation of Reactive Oxygen Species(ROS),which causes oxidative damage to biomolecules and cellular structures,ultimately leading to aberrant anther development(Li et al.,2004).
文摘As globalization accelerates,microbial contamination in the built environment poses a major public health challenge.Especially since Corona Virus Disease 2019(COVID-19),microbial sterilization technology has become a crucial research area for indoor air pollution control in order to create a hygienic and safe built environment.Based on this,the study reviews sterilization technologies in the built environment,focusing on the principles,efficiency and applicability,revealing advantages and limitations,and summarizing current research advances.Despite the efficacy of single sterilization technologies in specific environments,the corresponding side effects still exist.Thus,this review highlights the efficiency of hybrid sterilization technologies,providing an in-depth understanding of the practical application in the built environment.Also,it presents an outlook on the future direction of sterilization technology,including the development of new methods that are more efficient,energy-saving,and targeted to better address microbial contamination in the complex and changing built environment.Overall,this study provides a clear guide for selecting technologies to handle microbial contamination in different building environments in the future,as well as a scientific basis for developing more effective air quality control strategies.
基金Supported by Sichuan Beef Cattle Innovation Team Construction Project of National Modern Agricultural Industry Technology System(SCCXTD-2025-13)Yaan City's"Challenge Prize Mechanism for Key Technologies"Project for Creating a National Modern Agricultural Industry Technology Innovation Center-Breeding of New Local Beef Cattle Groups in Yaan(kczx2023-2025-18)+1 种基金Yaan City's"Challenge Prize Mechanism for Key Technologies"Project for Creating a National Modern Agricultural Industry Technology Innovation Center-Integrated Application of High-Quality Beef Cattle Development Technology System(kczx2023-2025-22)Yaan City's"Challenge Prize Mechanism for Key Technologies"Project for Creating a National Modern Agricultural Industry Technology Innovation Center-Research and Integration of Key Technologies for Informatization in Yaan Beef Cattle Production(kczx2023-2025-26).
文摘Male dzo from the F1 to F3 generations are sterile,which impedes the utilization of hybrid vigor in dzo and constrains the development of plateau animal husbandry in China.The underlying mechanism of this phenomenon has long been a focal point in yak crossbreeding improvement research.This review summarizes the mechanisms underlying male sterility in dzo from histological,physiological,and multi-omics perspectives,providing research directions for further exploration of the mechanisms of male sterility in dzo.
基金supported by grants FONDECYT 1180850 and 1231757 to RM.
文摘The factors affecting the behavior of non-specialized nectar-feeding passerines have received little attention in the literature on plant-pollinator interactions. Puya chilensis (Bromeliaceae) has sterile branch apices that project outward from the inflorescence. In this study, we evaluate the functional role of sterile apices as support systems for bird foraging behavior. We recorded bird visitation and flower probing in the presence and absence of sterile branches during the spring seasons of 2021 and 2024. The results revealed that experimental plants with excised branches received fewer bird visits and flower probings than control plants, indicating that sterile branches play an important role in the nectar-feeding behavior of passerine birds in P. chilensis.
基金supported by the National Natural Science Foundation of China(No.2021YFC3200603)the Special Research Assistant Program,Chinese Academy of Sciences.
文摘Photocatalytic disinfection is an eco-friendly strategy for countering bacterial pollution in aquatic environments.Numerous strategies have been devised to facilitate the generation of reactive oxygen species(ROS)within photocatalysts,ultimately leading to the eradication of bacteria.However,the significance of the physical morphology of photocatalysts in the context of sterilization is frequently obscured,and the progress in the development of physical-chemical synergistic sterilization photocatalysts has been relatively limited.Herein,graphitic carbon nitride(g-C_(3)N_(4))is chemically protonated to expose more sharp edges.PL fluorescence and EIS results indicate that the protonation can accelerate photogenerated carrier separation and enhance ROS production.Meanwhile,the sharp edges on the protonated g-C_(3)N_(4)facilitate the physical disruption of cell walls for further promoting oxidative damage.Protonated C_(3)N_(4)demonstrated superior bactericidal performance than that of pristine g-C_(3)N_(4),effectively eliminating Escherichia coli within 40 minutes under irradiation.This work highlights the significance of incorporating physical and chemical synergies in photocatalyst design to enhance the disinfection efficiency of photocatalysis.
基金supported by the Innovation Talents Project of Harbin Science and Technology Bureau(2022CXRCCGO11)。
文摘This study examined the effects of pasteurization(PAS),ultrasonic sterilization(ULS),and microwave sterilization(MWS)on the quality and storage characteristics of brine-fermented tofu(BFT)and fermented tofu(FT).Comparative analysis revealed that MWS had a negligible detrimental effect on the structural integrity and organoleptic properties of BFT and FT,while effectively maintaining its water-holding capacity(WHC)and exhibiting the least impact on its texture.In contrast,PAS and ULS increased hardness and chewiness significantly(P<0.05),but ULS also enhanced the brightness of tofu.Throughout the storage period,the WHC,elasticity,and sensory properties of tofu generally decreased,whereas the hardness and chewiness increased.PAS-BFT and MWS-FT maintained sensory quality for the longest periods of 14 and 12 days respectively,and could be decomposed to more small molecule peptides within 0–8 days and 0–6 days,which are more easily to be absorbed by the body.The findings discovered that MWS is the most suitable method for sterilization of tofu,with superior capability in maintaining the quality,extending shelf life,and improving digestibility of tofu.
基金supported by the National Youth Talent Program(Grant No.A279021801)Key-Area R&D Program of Guangdong Province(Grant No.2022B0202060001)+3 种基金Science and Technology Innovation Team of Shaanxi(Grant No.2021TD-32)the Natural Science Foundation of Shaanxi Province(Grant Nos.2021JM-089,2022JM112 and 2022JQ-162)the Key R&D Project from Yangling Seed Industry Innovation Center(Grant No.K3031322016)Fundamental Research Funds for the Central Universities(Grant No.2452022111)。
文摘As a prerequisite for sexual reproduction,gametophyte development is an interesting process involving cell proliferation,differentiation and specialization.Gametogenesis has been extensively explored in model plants,but the regulatory mechanism of gametophyte development largely remains unknown in Cucurbitaceae species.In present study,we have shown that watermelon ClBBM and ClPLT2,two AP2/ERF transcription factors,participated in both male and female gametophyte development.Clbbm and Clplt2 single mutants resembled wild-type phenotypes in both vegetative and reproductive development.But Clbbm/Clplt2 double mutant showed partial pollen abortion and bore less seeds comparing to WT.Our results indicated that the abnormal pollen grains were caused by premature tapetum degeneration,and reduced seed-set was due to faulty embryo sac development.ClBBM and ClPLT2 were expressed in FG4 embryo sacs,and their transcripts were also detectable in the tapetum and microspore of stage 9 anthers,which was consistent with developmental stages of defective phenotypes observed in double mutant.The expression of genes essential for tapetum development,ClATM1,ClAMS,ClMS1 and ClMS188,was decreased in Clbbm/Clplt2 double mutants.Moreover,the transcriptome analysis indicated that ClBBM and ClPLT2 participated in tapetum and pollen wall development by regulate cell cycle,transmembrane transport,glucan and cellulose metabolic process.Collectively,ClBBM and ClPLT2 were functionally redundant in regulating gametophyte development in watermelon,and their functions differ from their homologous genes in model plant Arabidopsis.
