A predictive equation for residual strength using a hybrid of subset selection of maximum dissimilarity method with Pareto optimal multi-gene genetic programming

More accurate and reliable estimation of residual strength friction angle(/r)of clay is crucial in many geotechnical engineering applications,including riverbank stability analysis,design,and assessment of earthen dam slope stabilities.However,a general predictive equation for/r,with applicability in a wide range of effective parameters,remains an important research gap.The goal of this study is to develop a more accurate equation for/r using the Pareto Optimal Multi-gene Genetic Programming(POMGGP)approach by evaluating a comprehensive dataset of 290 experiments compiled from published literature databases worldwide.A new framework for integrated equation derivation proposed that hybridizes the Subset Selection of Maximum Dissimilarity Method(SSMD)with Multi-gene Genetic Programming(MGP)and Pareto-optimality(PO)to find an accurate equation for/r with wide range applicability.The final predictive equation resulted from POMGGP modeling was assessed in comparison with some previously published machine learning-based equations using statistical error analysis criteria,Taylor diagram,revised discrepancy ratio(RDR),and scatter plots.Base on the results,the POMGGP has the lowest uncertainty with U95=2.25,when compared with Artificial Neural Network(ANN)(U95=2.3),Bayesian Regularization Neural Network(BRNN)(U95=2.94),Levenberg-Marquardt Neural Network(LMNN)(U95=3.3),and Differential Evolution Neural Network(DENN)(U95=2.37).The more reliable results in estimation of/r derived by POMGGP with reliability 59.3%,and resiliency 60%in comparison with ANN(reliability=30.23%,resiliency=28.33%),BRNN(reliability=10.47%,resiliency=10.39%),LMNN(reliability=19.77%,resiliency=20.29%)and DENN(reliability=27.91%,resiliency=24.19%).Besides the simplicity and ease of application of the new POMGGP equation to a broad range of conditions,using the uncertainty,reliability,and resilience analysis confirmed that the derived equation for/r significantly outperformed other existing machine learning methods,including the ANN,BRNN,LMNN,and DENN equations。

Multi-gene genetic programming extension of AASHTO M-E for design oflow-volume concrete pavements

The American Association of State Highway and Transportation Officials Mechanistic-Empirical Pavement DesignGuide (AASHTO M-E) offers an opportunity to design more economical and sustainable high-volume rigid pavementscompared to conventional design guidelines. It is achieved through optimizing pavement structural andthickness design under specified climate and traffic conditions using advanced M-E principles, thereby minimizingeconomic costs and environmental impact. However, the implementation of AASHTO M-E design for low-volumeconcrete pavements using AASHTOWare Pavement ME Design (Pavement ME) software is often overly conservative.This is because Pavement ME specifies the minimum design thickness of concrete slab as 152.4 mm (6 in.). Thispaper introduces a novel extension of the AASHTO M-E framework for the design of low-volume joint plain concretepavements (JPCPs) without modification of Pavement ME. It utilizes multi-gene genetic programming (MGGP)-based computational models to obtain rapid solutions for JPCP damage accumulation and long-term performanceanalyses. The developed MGGP models simulate the fatigue damage and differential energy accumulations. Thispermits the prediction of transverse cracking and joint faulting for a wide range of design input parameters and axlespectrum. The developed MGGP-based models match Pavement ME-predicted cracking and faulting for rigidpavements with conventional concrete slab thicknesses and enable rational extrapolation of performance predictionfor thinner JPCPs. This paper demonstrates how the developed computational model enables sustainable lowvolumepavement design using optimized ME solutions for Pittsburgh, PA, conditions.

Enhanced production of shikimic acid using a multi-gene co-expression system in Escherichia coli

Shikimic acid(SA) is the key synthetic material for the chemical synthesis of Oseltamivir, which is prescribed as the front-line treatment for serious cases of influenza. Multi-gene expression vector can be used for expressing the plurality of the genes in one plasmid, so it is widely applied to increase the yield of metabolites. In the present study, on the basis of a shikimate kinase genetic defect strain Escherichia coli BL21(?aro L/aro K, DE3), the key enzyme genes aro G, aro B, tkt A and aro E of SA pathway were co-expressed and compared systematically by constructing a series of multi-gene expression vectors. The results showed that different gene co-expression combinations(two, three or four genes) or gene orders had different effects on the production of SA. SA production of the recombinant BL21-GBAE reached to 886.38 mg·L^(-1), which was 17-fold(P < 0.05) of the parent strain BL21(?aro L/aro K, DE3).

The evolution of cancer genomic medicine in Japan and the role of the National Cancer Center Japan

The journey to implement cancer genomic medicine(CGM)in oncology practice began in the 1980s,which is considered the dawn of genetic and genomic cancer research.At the time,a variety of activating oncogenic alterations and their functional significance were unveiled in cancer cells,which led to the development of molecular targeted therapies in the 2000s and beyond.Although CGM is still a relatively new discipline and it is difficult to predict to what extent CGM will benefit the diverse pool of cancer patients,the National Cancer Center(NCC)of Japan has already contributed considerably to CGM advancement for the conquest of cancer.Looking back at these past achievements of the NCC,we predict that the future of CGM will involve the following:1)A biobank of paired cancerous and non-cancerous tissues and cells from various cancer types and stages will be developed.The quantity and quality of these samples will be compatible with omics analyses.All biobank samples will be linked to longitudinal clinical information.2)New technologies,such as whole-genome sequencing and artificial intelligence,will be introduced and new bioresources for functional and pharmacologic analyses(e.g.,a patient-derived xenograft library)will be systematically deployed.3)Fast and bidirectional translational research(bench-to-bedside and bedside-to-bench)performed by basic researchers and clinical investigators,preferably working alongside each other at the same institution,will be implemented;4)Close collaborations between academia,industry,regulatory bodies,and funding agencies will be established.5)There will be an investment in the other branch of CGM,personalized preventive medicine,based on the individual's genetic predisposition to cancer.

Morphogenesis and Molecular Phylogeny of a Marine Urostylid Ciliate Apokeronopsis wrighti(Protista, Ciliophora, Hypotrichia)

Hypotrichs are one of the highly differentiated ciliated lineages which play important roles in ecological, environmental,evolutionary and basic biological studies. In the present study, we investigated the living characteristics, infraciliature, nuclear apparatus, ontogenesis and phylogenetic position of a marine hypotrichous ciliate, Apokeronopsis wrighti Long et al., 2008, which was isolated from coastal waters in Shenzhen, China. The new isolate resembles the type population in terms of morphological characteristics, morphometrics, and SSU rRNA gene sequence that is with a 99.7% similarity. Ontogenesis of A. wrighti is characterized by oral primordium for the proter as well as marginal and dorsal kineties anlagen in both filial products formed de novo, and the cirral row arranged along the paroral and endoral arises from several anterior frontoventral-transverse cirral streaks. Phylogenetic analyses based on SSU and concatenated gene data suggest that five species of Apokeronopsis form a monophyletic clade, and the genus Apokeronopsis is closely related to Thigmokeronopsis and Metaurostylopsis.

生鲜蔬菜来源的蜡样芽胞杆菌毒力基因分布与MLST分析

为了解生鲜蔬菜来源蜡样芽胞杆菌的分子流行病学特征,采用PCR技术对来自5种生鲜蔬菜的37株蜡样芽胞杆菌分离株进行了毒力基因(nheA、nheB、nheC、hblA、hblC、hblD、entFM、cytK、ces)检测和多位点序列分型(MLST)分析。结果表明:37株分离株除呕吐毒素基因ces未检出外,其他8个毒力基因均有检出,其中溶血性肠毒素基因nheB的检出率最高,为94.6%,其次为溶血素基因hblC、hblD、hblA和肠毒素基因entFM,检出率均超过80%,溶血性肠毒素基因nheA和nheC检出率较低,分别为78.4%和64.9%;细胞毒素基因cytK的检出率最低,为29.7%。根据毒力基因携带模式,将37株分离菌株分成14个型别,II型携带率最高,携带Hbl和Nhe两种基因的型别有I型、II型和IV型。MLST分析则发现,37株分离菌株可分为30个ST型和5个CC群。ST4和ST378为主要ST型;CC142分布最广泛,不仅包含的ST型最多,而且携带5种毒力型别。以上结果表明,上海市蔬菜中蜡样芽胞杆菌具有潜在肠毒性危害并在遗传上呈现出多样性。该结果对蔬菜中蜡样芽胞杆菌引起食物的监控、预警和爆发后感染源追踪具有指导意义。

水稻矮化多蘖突变体mtd2/htd1-1的鉴定与图位克隆

株高是株型构成的重要因子,分蘖则是有效穗形成的基础,二者均是水稻重要的农艺性状.为研究株高和分蘖发育的分子机理,用甲基磺酸乙酯(EMS)诱变保持系西大1B,从中鉴定到1个矮化多蘖突变体,命名为mtd2(more tiller and dwarfism 2).与野生型西大1B相比,mtd2的分蘖数(70.00个)是野生型的6.25倍,株高(49.12 cm)则为野生型的59.4%,同时还表现出小穗、短叶等特征.遗传分析表明:mtd2分蘖增多和植株矮化的突变表型呈共分离现象且受单隐性核基因调控.利用mtd2和缙恢10号杂交组合的F2隐性群体,最终将MTD2基因精细定位于第4染色体分子标记C04-2和C04-3之间157 kb的物理范围内,该区间内含1个已克隆的多蘖矮秆基因LOC_Os04g46470-HTD1.对定位区间内的HTD1进行DNA测序,发现其编码区有11个碱基缺失,导致移码突变.构建互补载体,转化突变体mtd2,其矮化多蘖表型恢复正常,表明mtd2是htd1的一个新等位突变体.细胞学分析发现:mtd2分蘖数增多是由于分蘖芽发育较快所致;qRT-PCR分析表明:MTD2可能参与独脚金内酯(SLs)相关的分蘖芽发育调控网络,这为进一步鉴定MTD2/HTD1基因的功能奠定了基础.

甜樱桃采后主要真菌病害的分离鉴定及致病力分析

为进一步探究甜樱桃果实采后病原真菌的种类,本研究对甜樱桃采后果实发病部位的病原真菌进行分离纯化,对引起果实不同腐烂症状的5种病原菌进行形态学观察,并结合多基因序列分析鉴定病原菌。结果表明,菌株YTS6为扩展青霉(Penicillium expansum),YTS13为灰葡萄孢菌(Botrytis cinerea),YTS21为胶孢炭疽菌(Colletotrichum gloeosporioides),YTS28为链格孢菌(Alternaria alternata),YTS37为枝状枝孢(Cladosporium cladosporioides),其中枝状枝孢(C.cladosporioides)系首次报道为甜樱桃果实病原菌。致病力测定结果表明,YTS6、YTS13、YTS21和YTS28均对砂蜜豆有强致病力,YTS37对砂蜜豆有中等致病力;YTS13对萨米脱和奇好有强致病力,对拉宾斯和雷尼有中等致病力;YTS37对拉宾斯具有弱致病力,而对其余品种甜樱桃有中等致病力。不同属病菌对同一品种及同一病菌对不同品种甜樱桃的致病力均具有差异。本研究可为甜樱桃采后贮藏保鲜技术研究提供理论依据。

重庆高粱炭疽病病原菌鉴定及防治药剂筛选

高粱种植业是重庆地区重要产业,高粱炭疽病在部分地区发生流行,严重危害高粱的产量和品质。明确重庆高粱主要产区高粱炭疽病的致病菌,筛选出高效防治药剂,可为重庆地区高粱炭疽病的有效防治提供依据。本研究采集了重庆市永川区、梁平区和江津区等8个高粱主产区炭疽病病样,分离纯化得到13个菌株。通过病原菌形态特征观察,结合多基因(ITS,GAPDH,ACT,CHS)联合的系统发育分析,来自不同地区的13个高粱炭疽菌菌株属于同一分支,均为高粱刺盘孢Colletotrichum sublineola,表明C.sublineola是重庆高粱主产区炭疽病的致病菌。采用菌丝生长速率法测定10种杀菌剂对高粱炭疽病菌的菌丝生长抑制效果,发现氟菌唑、肟菌·戊唑醇、甲基硫菌灵、吡唑醚菌酯和多菌灵等5种杀菌剂对高粱炭疽病菌的EC 50在0.0180~0.1097μg/mL之间,具有较好的抑制作用。田间药效试验结果表明,75%肟菌·戊唑醇WG、70%甲基硫菌灵WP和250 g/L吡唑醚菌酯EC表现出较好的防治效果,防效分别达到61.86%、56.09%和54.80%,在高粱生产中应用潜力大。

多基因编辑技术的发展及其在畜牧种质创新中的应用

CRISPR基因编辑技术可以更精准、高效地更改基因组DNA序列,近年来在动植物育种中被广泛应用。实践中对农业生物多性状协同改良的需求越来越大,仅靠对单一基因或位点的改变不能满足上述需求,所以亟需建立一套多基因同步编辑体系,对多个基因进行协同修饰。多个sgRNA同时表达是多基因同步编辑的关键,常见表达策略包括建立多个单顺反子sgRNA并联表达和多顺反子sgRNA串联表达。常用串联表达工具有核酸酶Csy4、tRNA系统以及自裂核酶等。本文对以上多基因编辑技术的优劣进行了分析和总结,探讨了下一步的发展方向,并指出其重要意义和应用前景。

基于多基因遗传规划的注塑过程参数关联预测方法

鉴于传统注塑过程参数选择与设置依赖于人工经验,且过程参数与输出参数之间存在着非线性、强耦合的关系,文中提出了一种基于多基因遗传规划的注塑过程参数关联预测方法。该方法基于数据生成初始多基因树种群,随后迭代进行选择,高、低级树交叉及两类树突变操作,以获得最适应数据的模型,并演化出一个能清晰描述过程参数与输出参数关联的代数方程,确定控制输出的关键参数。在设置选择指标时,针对模型方程的复杂性会影响到实际使用效率的问题,引入复杂性维度作为评估指标进行多目标选择。以注塑过程为例,试验结果表明了所提方法的有效性。此外,参数和灵敏度分析验证了模型的鲁棒性,揭示了参数间隐藏的非线性关系,对后续注塑过程参数设置及优化提供了依据。

表达元件优化促进重组胶原蛋白在谷氨酸棒杆菌中的表达

重组胶原蛋白是一种具有广泛应用潜力的生物材料,近年来引起了生物医学、组织工程等众多领域的关注。胶原蛋白的3股螺旋结构赋予其独特的生物学功能和生物相容性,但也增加了其在微生物系统中表达的复杂性。该研究以细菌胶原蛋白V-B作为模式蛋白,通过对表达元件的优化,促进重组胶原蛋白在谷氨酸棒杆菌中的表达。首先通过启动子筛选和发酵时长优化,获得介导V-B表达的最优启动子tac-R0。接着利用RBS calculator设计核糖体结合位点(ribosomal binding site,RBS)和间隔序列(aligned spacing,AS)的突变文库,得到与tac-R0启动子搭配组合的最优RBS和AS,使V-B的产量提高至514 mg/L。此外,通过多基因表达盒的串联组合策略,将多个目的基因串联,最终V-B的产量较初始水平提高了8.4倍,达697 mg/L,该研究为重组胶原蛋白的工业化生产提供了基础。

血流感染肺炎克雷伯菌毒力基因分布和临床分子特征

目的分析血流感染肺炎克雷伯菌的毒力基因分布和临床分子特征。方法收集2016年1月—2017年3月南昌大学第二附属医院158株肺炎克雷伯菌非重复临床分离株。采用自动化鉴定药敏仪进行菌种鉴定和体外药物敏感性试验。采用拉丝试验筛选高毒力肺炎克雷伯菌(hvKP)。采用聚合酶链反应(PCR)检测肺炎克雷伯菌毒力基因、耐药基因和5种常见荚膜血清型。对菌株进行多位点序列分型(MLST)和同源性分析。收集感染患者相关临床资料,比较碳青霉烯类耐药肺炎克雷伯菌(CRKP)和常用抗菌药物敏感肺炎克雷伯菌(SKP)感染患者的临床特征。结果158株肺炎克雷伯菌中,CRKP 22株(13.9%),SKP 29株(18.4%)。CRKP菌株均为多重耐药菌,全部表达碳青霉烯类耐药基因blaKPC-2,其中1株同时携带金属酶碳青霉烯类耐药基因blaIMP-4。拉丝试验结果显示,51株血流感染肺炎克雷伯菌中,有13株为hvKP,其中CRKP 2株、SKP 11株。SKP菌株uge、iutA、mrkD、alls、aerobactin基因检出率高于CRKP菌株,ybtA基因检出率高于CRKP菌株(P<0.05)。荚膜血清分型结果显示,51株血流感染肺炎克雷伯菌中,K1和K2各4株,K57有1株,均为SKP菌株;CRKP未检出常见荚膜血清型。MLST分型结果显示,51株CRKP和SKP以ST11型为主(24/51),22株CRKP均为ST11型,SKP中ST23型、ST11型、ST65型分别为4、2、2株。同源性分析结果显示,51株CRKP和SKP中,有21株同源性>70%,其中A型(5株)、B型(9株)、C型(3株)均为ST11型CRKP,4株ST23型SKP均为D型。CRKP和SKP感染患者接受侵入性操作、使用碳青霉烯类抗菌药物和预后差异均有统计学意义(P<0.05),年龄、性别、基础疾病和科室分布差异均无统计学意义(P>0.05)。结论肺炎克雷伯菌毒力基因ybtA、uge、mrkD、alls、iutA和aerobactin可作为hvKP的毒力标记物。CRKP菌株耐药基因复杂多样,感染患者预后差,建议临床尽早进行CRKP筛查。

河北省两类奶牛场大肠杆菌耐药性检测及多位点序列分型分析

为研究抗菌药物减量使用对细菌耐药性的影响,本试验从抗菌药物减量使用达标奶牛场和非达标奶牛场采集肛拭子样品,进行常规细菌分离鉴定,对分离株进行耐药表型、基因型检测和多位点序列分型(Multi-locus sequencetyping,MLST)。比较两类奶牛场大肠杆菌的耐药表型和基因型的差异性。结果显示,从174个肛拭子样品中分离到了173株大肠杆菌,达标场84株,非达标场89株,总体分离率为99.4%。耐药性检测发现,达标场和非达标场大肠杆菌耐药率无显著性差异(P>0.05)。分离株中共有23株大肠杆菌具有多重耐药性,多数五重及以上耐药菌株来自于非达标场。除QnrB基因达标场检出率高于非达标场外(P<0.05),两类奶牛场其他耐药基因检出率差异不显著(P>0.05)。MLST分型发现25种ST类型,其中20种为已知ST型,5种新ST型。达标场大肠杆菌的优势型为ST109型,非达标场大肠杆菌的优势型为ST10和ST1307型。奶牛场大肠杆菌的耐药表型、基因型与ST型之间无相关性。

进口蜂蜜中幼虫芽孢杆菌分子分型方法的比较研究

为研究来自不同地域幼虫芽孢杆菌的进化关系,建立其分子分型方法,对来自11个国家和地区的50株幼虫芽孢杆菌分离株进行MLST分型分析,并与ERIC分型比较。结果显示,ERIC法将50株分离株分为ERICⅠ、ERICⅡ与ERICⅣ型,但不能区分不同区域菌株;MLST法将菌株分为ST1至ST8共8种序列型,其中ST1为优势型,占比高且分布广泛;其次为ST5(主要为加拿大分离株),ST3(澳大利亚分离株),ST4(法国与匈牙利分离株),ST6(新西兰分离株),ST2(西班牙分离株),ST7(匈牙利分离株)和ST8(澳大利亚分离株)。与ERIC相比,MLST可以对不同地域的幼虫芽孢杆菌进行有效分型,具有更高的分辨率,可作为后续进口蜂蜜中幼虫芽孢杆菌流行病学调查的工具。

基于基因注意力和多组学的低级别胶质瘤分类方法

现有对低级别胶质瘤(low-grade glioma,LGG)分子亚型三分类的研究依赖于LGG医学影像数据,数据样本少且难获取导致模型较难学习到LGG分子亚型之间的差异,降低了模型的分类性能。基于此,提出了LGG分子亚型三分类方法MODDA,利用基因注意力网络提取LGG多组学数据的重要特征,使用嵌入网络处理临床数据得到临床数据特征;将临床数据特征与组学数据重要特征进行融合,采用密集深度神经网络进行LGG分子亚型分类。实验结果表明,MODDA的分类性能优于现有LGG分子亚型分类方法,并且在外部验证数据集上也表现出较好的泛化性能。此外,对卡方检验过程中发现的重要基因进行了富集基因本体论(gene ontology,GO)术语和生物学途径分析,有助于LGG的个性化治疗。

白及叶斑病病原菌的鉴定与室内杀菌剂筛选

为了鉴定广西南宁种植基地的白及叶斑病病原菌种类并筛选出高效杀菌剂,采集了典型的叶斑病样品,对这些样品进行了病原菌的分离纯化,并根据科赫氏法则验证了分离株的致病性.结合形态特征和多基因序列联合分析,鉴定了病原菌的种类,并利用菌丝生长速率法评估了10种杀菌剂对代表菌株的抑制效果.结果显示本研究成功分离出了引起白及叶斑病的病原菌,即链格孢Alternaria alternata.将该病原菌接种到健康的白及叶片上可以引起与田间病害相似的症状.在对不同杀菌剂的测定中,肟菌戊唑醇对该菌菌丝生长的抑制效果最为显著,其EC_(50)值为1.25μg/mL.

耐碳青霉烯类肠杆菌血流感染患者耐药基因分析

目的 调查耐碳青霉烯类肠杆菌目细菌血流感染(CRE-BSI)的临床科室分布及耐药情况,分析其耐药基因型、毒力因子,以指导临床诊疗中抗菌药物的合理使用,预防耐药菌株的传播。方法 收集2021—2022年济宁市第一人民医院分离的21株临床CRE-BSI菌株,分析菌株的药敏结果;检测菌株的碳青霉烯酶基因(KPC、OXA-48、VIM、IMP、NDM);提取菌株DNA,并进行多位点序列分型(MLST)。结果 21株CRE-BSI菌株中,12株源于重症医学科,除对替加环素、多黏菌素/黏菌素、阿米卡星、米诺环素敏感性较好,部分菌株抗菌药物耐药率为100.00%。21株菌株中,肺炎克雷伯菌10株,大肠埃希菌10株,均以bla_(NDM)为主要产酶基因型;MLST结果显示,肺炎克雷伯菌主要流行ST11,大肠埃希菌主要流行ST361、ST410。毒力因子均有不同数量的检出,其中iroN、fimH检出率最高,分别为100.00%(20/20)、85.00%(17/20)。结论 济宁市第一人民医院分离的临床CRE-BSI菌株肺炎克雷伯菌中bla_(KPC-2)为主要产酶基因,大肠埃希菌中bla_(NDM-5)为主要产酶基因型,可能存在克隆流行和水平传播,临床需加强抗菌药物应用的监管,预防CRE院内爆发。

云南多原发与非多原发肺癌基因突变特征分析

目的 根据检测结果分析MPLC患者与non-MPLC患者基因突变的差异,探寻MPLC是否存在特异性肺癌相关基因突变,以及寻找更适于MPLC临床诊断及治疗的方式。方法 回顾性地对122例接受了手术治疗并进行了NGS基因检测的患者(MPLC组与non-MPLC组各61例患者)进行基因数据统计和分析,研究2组患者肺癌相关基因突变的差异性。结果 2组患者在多个肺癌相关基因突变中存在差异。MPLC组KRAS及NF1基因突变率高于non-MPLC组,差异有统计学意义(P<0.05);non-MPLC组EGFR基因突变率高于MPLC组,差异有统计学意义(P<0.05),EGFR基因第19外显子缺失突变率差异显著(P<0.05)。结论 MPLC组与non-MPLC组患者在肺癌相关基因突变检测中存在明显突变率差异,可为临床区分和诊治MPLC与non-MPLC提供参考依据。

多民族地区红色基因融入大学生思想政治教育研究——以普洱学院为例

云南省普洱市是边疆多民族地区,具有丰富的红色文化资源。作为多民族地区高校,发掘红色资源,讲好革命故事,不仅是传承红色基因、做好大学生思想政治教育工作的重要手段,更是铸牢中华民族共同体意识的重要措施。以普洱学院为例,探索多民族地区红色基因融入大学生思想政治教育的实践路径和方法,主要包括:用好当地红色资源,打造民族团结进步教育基地;发挥好学生的示范引领作用,实现高校学子自我教育、自我管理和自我服务;以党建带团建,建立特色民族团结进步教育课程体系;着力建设大中小学思政一体化体系,打造思政课特色品牌。将红色基因融入大学生的思政教育,为党育人、为国育才。