Knock-out of GhPDCT with the CRISPR/Cas9 system increases the oleic acid content in cottonseed oil

Cotton is a pivotal economic crop for natural textile fibers that also serves as an important source of edible oil(Long et al.2023).Cottonseed oil contains approximately14%oleic acid and 59%linoleic acid.An increase in monounsaturated fatty acids,particularly oleic acid,enhances the oxidative stability and nutritional value of edible oil(Chen et al.2021).

A simple and efficient CRISPR/Cas9 system permits ultra-multiplex genome editing in plants

The development and maturation of the CRISPR/Cas genome editing system provides a valuable tool for plant functional genomics and genetic improvement.Currently available genome-editing tools have a limited number of targets,restricting their application in genetic research.In this study,we developed a novel CRISPR/Cas9 plant ultra-multiplex genome editing system consisting of two template vectors,eight donor vectors,four destination vectors,and one primer-design software package.By combining the advantages of Golden Gate cloning to assemble multiple repetitive fragments and Gateway recombination to assemble large fragments and by changing the structure of the amplicons used to assemble sg RNA expression cassettes,the plant ultra-multiplex genome editing system can assemble a single binary vector targeting more than 40 genomic loci.A rice knockout vector containing 49 sg RNA expression cassettes was assembled and a high co-editing efficiency was observed.This plant ultra-multiplex genome editing system advances synthetic biology and plant genetic engineering.

The challenge of molecular selection in liver-limited metastatic colorectal cancer for surgical resection: a systematic review and meta-analysis in the context of current and future approaches

Objectives:Treatment of metastatic colorectal cancer(mCRC)includes resection of liver metastases(LM),however,no validated biomarker identifies patients most likely to benefit from this procedure.This meta-analysis aimed to assess the impact of the most relevant molecular alterations in cancer-related genes of CRC(i.e.,RAS,BRAF,SMAD4,PIK3CA)as prognostic markers of survival and disease recurrence in patients with mCRC surgically treated by LM resection.Methods:A systematic literature review was performed to identify studies reporting data regarding survival and/or recurrence in patients that underwent complete liver resection for CRC LM,stratified according to RAS,BRAF,PIK3CA,and SMAD4 mutational status.Hazard ratios(HRs)from multivariate analyses were pooled in the meta-analysis and various adjustment strategies for confounding factors were combined.The search was conducted in numerous databases,including MEDLINE(PubMed),Embase,Cumulative Index to Nursing and Allied Health Literature(CINAHL)(EBSCO host),and WHO Global Index Medicus,through March 18th,2022.Meta-analyses,editorials,letters to the editor,case reports,studies on other primary cancers,studies with primary metastatic sites other than the liver,studies lacking specific oncological outcome variables or genetic data,non-English language studies,and studies omitting residual disease data from liver metastasectomy were excluded.The remaining 47 studies were summarized in a descriptive table which outlines the key characteristics of each study and final results were graphically presented.Results:RAS mutation status was negatively associated with overall survival(OS)(HR,1.68;95%CI,1.54–1.84)and recurrence free survival(RFS)(HR,1.46;95%CI,1.33–1.61).A negative association was also found for BRAF regarding OS(HR,2.64;95%CI,2.15–3.24)and RFS(HR,1.89;95%CI,1.32–2.73)and SMAD4 regarding OS(HR,1.93;95%CI,1.56–2.38)and RFS(HR,1.95;95%CI,1.31–2.91).For PIK3CA only three studies were eligible and no significant association with either OS or RFS could be highlighted.Conclusion:RAS,BRAF,and SMAD4 are negatively associated with OS and RFS in patients undergoing curative liver metastasectomy from colorectal cancer.No conclusion can be drawn for PIK3CA due to the limited literature availability.These data support the integration of RAS,BRAF,and SMAD4 mutational status in the surgical decision-making for colorectal liver metastasis.Nevertheless,we have to consider several limitations,the major ones being the pooling of results from studies that evaluated patient outcomes as either disease-free survival(DFS)or RFS;the inclusion of patients with minimal residual disease and unconsidered potential confounding factors,such as variability in resectability definitions,chemotherapy use,and a potential interaction between biological markers and pre-and post-resection pharmacological treatments.

An efficient and universal protoplast-based transient gene expression system for genome editing in Brassica crops

Protoplast-based transient gene expression system has been widely used in plant genome editing because of its simple operation and less time-consuming.In order to establish a universal protoplast-based transient transfection system for verifying activities of genome editing vectors containing targets in Brassica,we systematically optimized factors affecting protoplast isolation and transient gene expression.We established an efficient protoplast-based transient gene expression system(PTGE)in Chinese cabbage,achieving high protoplast yield of 4.9×10^(5)·g^(-1)FW,viability over 95%,and transfection efficiency of 76%.We showed for the first time that pretreatment of protoplasts with a hypotonic MMG could significantly enhance the transfection efficiency.Furthermore,protoplasts incubated at 37℃ for 6 min improved the transfection efficiency to 86%.We also demonstrated that PTGE worked well(more than 50%transfection efficiency)in multiple Brassica species including cabbage,Pak Choi,Chinese kale,and turnip.Finally,PTGE was used for validating the activities of CRISPR/Cas9 vectors containing targets in Chinese cabbage,cabbage,and pak choi,demonstrating the broad applicability of the established PTGE for genome editing in Brassica crops.

Studies on the temporal,structural,and interacting features of the clubroot resistance gene Rcr1 using CRISPR/Cas9-based systems

Clubroot disease is a severe threat to Brassica crops globally,particularly in western Canada.Genetic resistance,achieved through pyramiding clubroot resistance(CR)genes with different modes of action,is the most important strategy for managing the disease.However,studies on the CR gene functions are quite limited.In this study,we have conducted investigations into the temporal,structural,and interacting features of a newly cloned CR gene,Rcr1,using CRISPR/Cas9 technology.For temporal functionality,we developed a novel CRISPR/Cas9-based binary vector,pHHIGR-Hsp18.2,to deliver Rcr1 into a susceptible canola line(DH12075)and observed that early expression of Rcr1 is critical for conferring resistance.For structural functionality,several independent mutations in specific domains of Rcr1 resulted in loss-offunction,highlighting their importance for CR phenotype.In the study of the interacting features of Rcr1,a cysteine protease gene and its homologous allele in canola were successfully disrupted via CRISPR/Cas9 as an interacting component with Rcr1 protein,resulting in the conversion from clubroot resistant to susceptible in plants carrying intact Rcr1.These results indicated an indispensable role of these two cysteine proteases in Rcr1-mediated resistance response.This study,the first of its kind,provides valuable insights into the functionality of Rcr1.Further,the new vector p HHIGR-Hsp18.2 demonstrated an inducible feature on the removal of add-on traits,which should be useful for functional genomics and other similar research in brassica crops.

Construction of Electrochemical Biosensors Based on the CRISPR/Cas12 System for Applications

The current major issue in improving detection sensitivity and selectivity is to design an electrochemical sensor that does not require PCR amplification for nucleic acid identification and measurement. Because of their great sensitivity, precision, and simplicity of downsizing, electrochemical biosensors have emerged as a research hotspot in the field of nucleic acid detection. The CRISPR/Cas12 system has emerged as a potent tool for nucleic acid detection due to its powerful cleavage activity and selectivity. Specific electrode changes combined with the CRISPR/Cas12 system can greatly improve the performance of electrochemical biosensors. In this study, the design concepts of electrochemical biosensors based on the CRISPR/Cas12 system and their application advancements in nucleic acid detection are discussed.

基于1D-CNN的无砟轨道CA砂浆脱空识别

为解决水泥乳化沥青砂浆(CA砂浆)脱空位置识别的难题,提出考虑CA砂浆脱空的无砟轨道模型建模与计算方案。首先,基于CRTS I型板式无砟轨道“梁-板-板”建模理论,使用非线性弹簧模拟CA砂浆脱空病害,输入扣件支点反力作为模型的激励,得到监测点位的垂向加速度数据集。其次,通过对数据集缩放、添加噪声的方式进行数据增强,增强数据集的差异,以增强识别模型的泛化性,获得更加准确的识别结果。最后,建立脱空病害的识别方法,搭建一维卷积神经网络(1D-CNN)进行CA砂浆的脱空位置识别,构建准确率、查准率和查全率等评价指标评估识别结果,使用t-SNE降维算法对结果进行可视化。对比其他3种神经网络的表现,探讨1D-CNN应用于CA砂浆脱空位置识别的优势。研究结果表明:“梁-板-板”模型反映了无砟轨道的力学本征,用于CA砂浆脱空问题的仿真模拟是可行的;通过对数据集信号缩放、添加噪声的方式进行数据增强可提高深度学习模型的性能;从深度学习的角度来看,CA砂浆脱空发生在板中造成的危害较小,应重点关注板端CA砂浆脱空的养护与维修问题;1D-CNN相比其他3种模型运算时间短,在CA砂浆脱空位置识别数据集上优势更大,识别准确率可达95%以上。研究结果为进一步提高无砟轨道结构监测的自动化和智能化水平提供参考。

CRISPR/CAS9敲除PD-1的肿瘤浸润T淋巴细胞回输对小鼠结肠癌的治疗作用

目的:探讨应用成簇规律间隔的短回文重复序列及其相关蛋白(CRISPR/Cas9)技术敲除程序性死亡分子-1(PD-1)的肿瘤浸润淋巴细胞(TIL)回输对结肠癌小鼠的治疗作用。方法:皮下注射CT26构建小鼠结肠癌模型,从3只模型小鼠肿瘤组织中提取TIL,并提取外周血淋巴细胞;对TIL进行PD-1基因敲除;回输实验分为对照组(Control)、输注淋巴细胞组(Lym)、输注荷瘤小鼠TIL组(TIL)、慢病毒空载对照组(pVSV-G-PX458-NC)组、PX458-PD-1-sgRNA1组(PD-1-sgRNA1),每组10只;测量各组小鼠肿瘤组织质量及肿瘤抑制率;TUNEL法检测各组小鼠肿瘤组织细胞凋亡;ELISA检测各组小鼠肿瘤组织TNF-α和IFN-γ含量;免疫组化检测肿瘤组织CD4+T、CD8+T细胞表达;免疫荧光法检测肿瘤组织细胞增殖核抗原-67(Ki-67)和血管内皮生长因子(VEGF)表达;Western blot检测肿瘤组织PD-1及其主要配体PD-L1表达。结果:PD-1-sgRNA1能明显抑制小鼠肿瘤细胞体内生长,抑制肿瘤组织Ki-67和VEGF表达及PD-1、PD-L1表达,提高肿瘤组织细胞凋亡率、TNF-α、IFN-γ含量、CD4+T、CD8+T细胞表达(均P<0.05)。结论:CRISPR/CAS9敲除PD-1的TIL回输能明显抑制结肠癌小鼠肿瘤组织Ki-67和VEGF表达,增加CD4+T、CD8+T细胞,诱导肿瘤细胞凋亡,发挥抑制肿瘤生长作用。

基于RAA-CRISPR/Cas12a技术的桃成分单管一体化快速检测方法

通过设计特异性的桃重组酶介导的等温扩增(recombinase-aided amplification,RAA)和CRISPR RNA(crRNA)引物,建立RAA技术结合CRISPR/Cas12a系统的单管一体化桃成分快速检测方法,并分析该方法的特异性、灵敏度和检出限,同时对市售样品进行检测。结果显示,该方法不依赖大型仪器设备,在30 min内即可完成桃成分的快速检测;与其他常见水果物种之间无交叉污染,表现出良好的特异性;该方法的灵敏度为1.0×10-1 ng/μL;检出限为1%;通过对20份市售样品检测,结果显示本方法与实时聚合酶链式反应法检测结果一致。因此,本研究建立的RAA-CRISPR/Cas12a单管一体化桃成分快速检测方法具有特异性好、灵敏度高的优点,为桃成分快速检测提供了一种新的技术。

利用CRISPR/Cas9系统创制水稻品种GW2基因的突变体

培育具有育种价值的GW2基因编辑的水稻优异新品种在水稻育种中具有重要意义,利用CRISPR/Cas9基因编辑技术,以生产上广泛推广应用的13份水稻品种为材料,对粒质量基因(GW2)进行定向性状改良,通过农杆菌转化创制出一批无T-DNA元件的水稻非转基因GW2突变纯合株系。结果表明:13份T0代水稻转基因中,有28.0%~59.1%植株的GW2基因发生了突变,纯合突变株数量占总突变株数量的35.0%,双等位突变株数量占总突变株数量的14.2%,杂合突变株数量占总突变株数量的50.8%。此外,不同水稻品种发生的突变类型也略有不同。对13份T2代非转基因水稻GW2突变纯合株进行千粒质量性状的考种分析。与对应的野生型亲本品种相比,纯合突变水稻植株的千粒质量显著提高10.81%~58.22%。本研究结果极大地丰富了GW2的突变类型,为不同水稻品种的高产稳产创造了重要的种质资源,同时也为利用基因编辑提高水稻产量提供了有价值的育种信息。

乳腺X线征象、ADC值联合血清CA125、CEA水平预测乳腺癌新辅助化疗后腋窝淋巴结病理状态的价值

目的:探讨联合应用乳腺X线征象、磁共振表观扩散系数(ADC)值与血清CA125、CEA水平预测乳腺癌新辅助化疗后转移性腋窝淋巴结病理状态的价值。方法:前瞻性纳入2020年1月-2022年12月在我院接受全程新辅助化疗及腋窝淋巴结清扫术的152例女性乳腺癌患者作为研究对象,根据腋窝淋巴结清扫术后病理结果将所有患者分为腋窝病理完全缓解(PCR)组(55例)和非PCR组(97例)。于新辅助化疗前一周内,对所有患者进行乳腺X线和磁共振扩散加权成像检查及血清CA125、CEA水平检测。结果:乳腺癌新辅助化疗后腋窝PCR与非PCR患者的Ki-67表达状态差异有统计学意义(P<0.05)。新辅助化疗后腋窝非PCR患者治疗前乳腺X线征象中血管增多、增粗及边缘毛刺的发生比例显著高于PCR患者(P<0.05)。新辅助化疗后腋窝非PCR患者的治疗前ADC值显著低于PCR患者(t=4.372,P<0.001),而血清CA125、CEA水平显著高于PCR患者(P<0.05)。多因素Logistic回归分析结果显示,Ki-67高表达(X1)、血管增多、增粗(X2)、较高的ADC值(X4)、血清CA125水平(X5)是乳腺癌新辅助化疗后腋窝非PCR的独立危险因素(P<0.05),构建Logistic回归模型为Logit(P)=-3.206+0.792X1+0.953X2+1.199X4+0.845X5。ROC曲线分析结果显示,Logistic回归模型预测新辅助化疗后转移性腋窝淋巴结病理状态的曲线下面积为0.856(95%CI:0.794~0.917),敏感度和特异度分别为73.2%和85.5%。结论:乳腺X线特征、ADC值、血清CA125水平及Ki67表达状态与伴有转移性腋窝淋巴结的乳腺癌患者新辅助化疗后腋窝淋巴结病理状态有关,联合以上特征具有一定预测价值。

CRISPR/Cas9技术在热带作物育种中的应用研究进展

在热带地区种植的香蕉、番木瓜、甘蔗、木薯、天然橡胶、油棕等热带作物,是我国农业的重要组成部分,不仅为我们的日常生活和工农业生产提供了重要的原材料,而且为我国热带与亚热带地区的主要农业产量和经济增长做出了贡献。然而,这些作物的现代分子育种受其生物学特性和遗传复杂性的严重阻碍,多倍化、杂合性、无性繁殖、童期长和植株高大等问题导致热带作物的传统杂交育种周期长、难度大、进展慢。基因编辑技术的发展为热带作物育种带来了新途径和新机遇。CRISPR/Cas9系统介导的基因组编辑技术以其更高的靶向效率、多功能性和易用性,已被广泛应用于植物基因组编辑育种中。近年来,该技术在香蕉、木薯、天然橡胶、甘蔗等热带作物上也实现了广泛应用。本文介绍了基于CRISPR-Cas9系统的基因组编辑、CRISPR-Cas9在热带作物改良中的应用进展以及所面临的挑战和问题,同时对热带作物基因编辑育种方面提出建议,以期为后续研究提供思路,并为进一步开发应用该技术以有效改良热带作物的植物性状提供参考。

橡胶树CRISPR/Cas9编辑植株出现预期表型的突变阈值

本课题组前期在橡胶树原生质体中分别实现了基于CRISPR/Cas9-RNP及质粒介导的瞬时转化基因编辑,并以HbPDS基因为靶标,在橡胶树愈伤组织中实现了农杆菌介导的稳定转化基因编辑,并获得了出现白化表型的愈伤组织,但由于橡胶树愈伤诱导体胚的技术还不稳定,导致未能获得基因编辑植株。为了获得橡胶树基因编辑幼苗,本研究继续以HbPDS基因为靶标,改用橡胶树体胚为侵染受体,开展农杆菌介导的遗传转化,经潮霉素抗性筛选获得增殖的T_0代抗性体胚,通过Cas9基因分子检测共挑选出116个阳性转化体胚,通过对靶点处的测序检测发现有5个胚块发生了基因编辑,编辑效率为4.3%。通过植株再生程序,获得了2株再生植株,表型观测均是嵌合体,表现为同一编辑植株上同时存在绿色及白化叶片。同时取白化叶片和绿色叶片进行高通量测序,发现二者均已发生了基因编辑,除了1个白化叶片发生了纯合双等位突变之外,其余叶片均为嵌合突变。其中,白化叶片编辑细胞的占比介于86%~100%之间,而绿色部位编辑细胞所占比例介于66%~69%之间,说明橡胶树CRISPR/Cas9编辑植株出现预期表型的突变阈值高于69%,介于70%~85%之间,为今后创制有表型的橡胶树基因编辑幼苗提供理论指导。同时,本研究证明了T_0代转化体胚及其获得的再生植株嵌合比例太高,不宜作为植株再生的材料,为今后通过对T_0代阳性体胚进行继代获得T_1代纯合体胚,并以T_1代体胚为转化受体获得纯合基因编辑植株提供思路。本研究首次公开报道获得了橡胶树基因编辑植株,尽管是嵌合植株,但也增进了对CRISPR/Cas9在橡胶树中作用的理解,为下一步在橡胶树中改进并应用基因编辑技术奠定基础。

超声弹性成像联合癌胚抗原CEA、CA153和CA125对乳腺癌患者的早期诊断价值

目的探讨超声弹性成像与肿瘤标志物CEA、CA153和CA125对乳腺癌的早期诊断价值,为临床诊治提供指导。方法将秦皇岛市第一医院收治早期乳腺癌患者归为A组,良性病变患者为B组,正常体检者为C组,均为48例女性。均行弹性超声诊断并采用CLIA法测定血清CEA、CA153、CA125水平,评估超声及血清检测的联合诊断价值。结果A组弹性评分与血清检测水平和阳性率均高于另外两组(P均<0.05),另外两组之间无统计学意义;联合检测敏感性、特异性、诊断符合率均高于其余单项检测结果(P均<0.05)。结论超声弹性成像、CA153、CA125和CEA联合检测有助于鉴别诊断良恶性病变,提高早期检出率,能够指导治疗方案和监测病情,值得临床推广。

CRISPR/Cas系统在核酸检测中的应用和挑战

成簇的规律间隔的短回文重复序列(CRISPR)/CRISPR相关基因(Cas)系统是古菌和细菌适应性免疫系统,最初被发现用来进行基因编辑,近年其特异识别和切割特性以及可编程性使其在核酸和非核酸靶标检测中崭露头角。目前基于CRISPR/Cas系统的核酸检测系统主要与核酸扩增技术如PCR、链置换扩增(SDA)、滚环扩增(RCA)和EXPAR等恒温扩增技术结合,以提高灵敏度;多项研究也在尝试开发基于CRISPR/Cas的无预扩增核酸检测系统;另外也有研究尝试通过生物祖体(包括适体、DNAzymes和抗原-抗体反应)特异性识别靶物质实现非核酸信号转换为核酸信号,实现基于CRISPR/Cas的蛋白质、小分子、细胞等非核酸物质的检测。但仍存在一些挑战,其中目标中痕量原始浓度的信号转换和放大是分析系统的关键挑战;其他挑战包括CRISPR/Cas存在一定背景活性,CRISPR RNA和单链DNA/单链RNA信号报告序列有降解风险等。随着技术的逐渐成熟,CRISPR/Cas系统将在生物靶标检测中发挥更大作用。本文就CRISPR/Cas系统在核酸检测这一领域的最新发展方向作一述评。

香蕉枯萎病菌内源报告基因Foc4carS的鉴定及其应用

香蕉枯萎病是由尖孢镰刀菌古巴转化型(Fusarium oxysporum f. sp. cubense, Foc)引起的香蕉毁灭性土传病害,其中4号生理小种(Foc4)能感染几乎所有的香蕉品系,危害最严重。carS基因通过调控下游car结构基因参与调控镰刀菌类胡萝卜素的生物合成,本研究克隆鉴定了Foc4carS基因(FOIG_05085),Foc4carS蛋白具有典型的RING-finger蛋白结构域。利用分割标记法(Split-marker PCR)获得Foc4carS基因的融合片段,同时构建含有Foc4carS基因sgRNA591序列的pUC-fFuCas9-HTBNLS-hph-Foc4carS基因编辑载体,通过PEG介导的原生质体转化获得该基因的敲除突变体、回补突变体以及基因编辑敲除体,并对敲除和回补突变体的生物学特性和致病力进行分析。结果显示:ΔFoc4carS突变体的菌落直径、产孢量和致病力等生物学表型与野生菌株Foc4无显著差异,而ΔFoc4carS突变体菌落颜色呈深橙色,Foc4carS基因的缺失影响了次生代谢产物类胡萝卜素的生物合成;基因编辑的ΔFoc4carS(HDR)突变体不论是再生筛选板还是继代后的PDA平板,其菌落均出现典型的深橙色,表明Foc4carS可作为内源报告基因,在香蕉枯萎菌Foc4中进行基因质粒型CRISPR/Cas9编辑可行。

利用CRISPR/Cas9技术编辑OsOFP30基因创制水稻粒型突变体

【目的】研究水稻OFP家族转录因子OsOFP30对粒型的影响,创制新的粒型突变材料,为水稻粒型改良提供参考。【方法】以粳稻品种中花11为受体材料,利用CRISPR/Cas9技术对OsOFP30基因进行定向编辑;通过T_(0)、T_(1)和T_(2)代连续筛选,获得3类无外源片段插入的纯合突变体(长片段删除突变OsOFP30^(-89)、单碱基插入突变OsOFP30^(+1G)和OsOFP30^(+1A));分析粒型变异,进行生物信息学和测序分析,初步确定粒型变异原因。【结果】与野生型相比,3类突变体的粒宽和千粒重都显著降低,OsOFP30^(-89)和OsOFP30^(+1G)仅粒长和粒厚显著降低,穗型指标与野生型无明显差异,OsOFP30^(+1A)的粒长和粒厚与野生型无明显差异,仅一次枝梗数显著低于野生型;生物信息学分析表明,这3类突变体均由移码突变导致的翻译提前终止所产生,OsOFP30^(-89)突变蛋白长度为252个氨基酸,OsOFP30^(+1G)和OsOFP30^(+1A)突变蛋白长度均为282个氨基酸,两者仅第323位的核酸序列存在G和A的单碱基差异,导致突变蛋白第108位产生丝氨酸和天冬酰胺的差别。【结论】初步判断OsOFP30基因可调控水稻粒型变异。本研究创制了新的粒型突变材料,可为水稻粒型改良育种提供参考。

血清CYFRA21-1、CA125联合HPV DNA检测在宫颈癌早期筛查中的价值及病理特征研究

目的分析血清细胞角蛋白19片段(CYFRA21-1)、糖类抗原125(CA125)联合HPV DNA检测在宫颈癌早期筛查中的价值及病理特征。方法选取2019年8月至2023年6月沧州市中心医院收治的宫颈癌患者152例为观察组,另选取同期在本院行体检且各项正常女性80名为对照组;对比两组血清CYFRA21-1、CA125水平以及HPV DNA检测结果;对比观察组不同手术病理结果及血清CYFRA21-1、CA125表达水平以及HPV DNA检测结果;以病理学检查为金标准,分析血清CYFRA21-1、CA125水平以及HPV DNA检测单独以及联合诊断宫颈癌的一致性;绘制ROC曲线,分析血清CYFRA21-1、CA125联合HPV DNA单独检测及联合检测宫颈癌的效能。结果152例患者中,鳞状细胞癌104例,腺癌患者48例;其中轻度不典型增生66例、中度不典型增生57例、重度不典型增生29例。观察组血清CYFRA21-1、CA125水平以及HPV DNA阳性率均高于对照组,差异有统计学意义(P<0.05);血清CYFRA21-1、CA125水平:鳞状细胞癌<腺癌,轻度不典型增生<中度不典型增生<重度不典型增生,差异均有统计学意义(P<0.05)。观察组不同分期、不同肿瘤增生类型的HPV DNA阳性率比较,差异无统计学意义(P>0.05);血清CYFRA21-1、CA125水平、HPV DNA检测单独以及联合诊断宫颈癌与病理学检查结果的一致性Kappa值分别为0.677、0.731、0.756、0.902;CA125+CYFRA21-1+HPV DNA联合检测的AUC为0.894,高于CA125、CYFRA21-1、HPV DNA单独检测(P>0.05)。结论血清CYFRA21-1、CA125联合HPV DNA检测的诊断效能高于单一检测,提示三指标联合检测可显著提高宫颈癌早期筛查的诊断价值,可为制定临床治疗方案提供参考资料。

基于CA-YOLOv9网络的实时全景多尺度课堂行为识别

随着人工智能的发展和“智慧课堂”概念的兴起,课堂行为智能化识别成为研究的热点。目前,国内外研究多采用数个学生或教室的局部影像,而对于学生人数密集、尺度变化范围大且存在大量物体遮挡的全景教室图像实时检测鲜有涉及。为此,文章基于YOLOv9网络,加入CA模块,构建了CA-YOLOv9网络;之后,通过结构分析实验、消融实验和对比实验,得到了CA-YOLOv9网络的最佳结构,并验证了其识别性能;最后,将训练好的CA-YOLOv9网络应用于全景多尺度课堂行为识别,证明了该网络能在不降低推理速度的同时提升检测精度,初步验证了该网络在智慧课堂中实时应用的可行性。文章的研究可为及时了解学生的学习状态和教师教学方法的有效性提供依据,有助于推动人工智能与教育教学的深度融合。

基于CRISPR/Cas系统的检测技术在老年感染性疾病常见病原体中的研究进展

老年感染性疾病是全球老年人死亡的主要原因之一。由于老年人免疫力下降,合并慢性基础疾病等因素,导致其感染因素更复杂且临床表现各异。及早、快速和准确地鉴别出老年感染性病原体,对临床精准的抗感染治疗,减少老年病人并发症及降低死亡率有重要意义。传统病原体检测方法存在依赖标本活菌,检测时间长,检测人员准入条件高或依赖昂贵仪器等缺点。随着CRISPR/Cas系统在微生物检测中的应用,基于CRISPR/Cas系统的检测技术在老年感染性疾病病原体应用的优势也日渐突出。CRISPR/Cas系统能高效准确地鉴定出病原体,尤其是对于标本量少、微生物丰度低、采样困难或需要快速床旁检测的老年感染性疾病的辅助诊断具有重要的价值。本文主要对基于CRISPR/Cas系统的检测技术在老年感染性疾病病原体检测方面的研究进展进行综述。