Zinc glycine chelate ameliorates DSS‑induced intestinal barrier dysfunction via attenuating TLR4/NF‑κB pathway in meat ducks

Background Zinc glycine chelate(Zn-Gly)has anti-inflammation and growth-promoting properties;however,the mechanism of Zn-Gly contribution to gut barrier function in Cherry Valley ducks during intestinal inflammation is unknown.Three-hundred 1-day-old ducks were divided into 5 groups(6 replicates and 10 ducks per replicate)in a completely randomized design:the control and dextran sulfate sodium(DSS)groups were fed a corn-soybean meal basal diet,and experimental groups received supplements of 70,120 or 170 mg/kg Zn in form of Zn-Gly.The DSS and treatment groups were given 2 mL of 0.45 g/mL DSS daily during d 15–21,and the control group received normal saline.The experiment lasted 21 d.Results Compared with DSS group,70,120 and 170 mg/kg Zn significantly increased body weight(BW),villus height and the ratio of villus to crypt,and significantly decreased the crypt depth of jejunum at 21 d.The number of goblet cells in jejunal villi in the Zn-Gly group was significantly increased by periodic acid-Schiff staining.Compared with control,the content of intestinal permeability marker D-lactic acid(D-LA)and fluxes of fluorescein isothiocyanate(FITC-D)in plasma of DSS group significantly increased,and 170 mg/kg Zn supplementation significantly decreased the D-LA content and FITC-D fluxes.Compared with control,contents of plasma,jejunum endotoxin and jejunum pro-inflammatory factors IL-1β,IL-6 and TNF-αwere significantly increased in DSS group,and were significantly decreased by 170 mg/kg Zn supplementation.Dietary Zn significantly increased the contents of anti-inflammatory factors IL-10,IL-22 and sIgA and IgG in jejunum.Real-time PCR and Western blot results showed that 170 mg/kg Zn supplementation significantly increased mRNA expression levels of CLDN-1 and expression of OCLN protein in jejunum,and decreased gene and protein expression of CLDN-2 compared with DSS group.The 120 mg/kg Zn significantly promoted the expressions of IL-22 and IgA.Dietary Zn-Gly supplementation significantly decreased pro-inflammatory genes IL-8 and TNF-αexpression levels and TNF-αprotein expression in jejunum.Additionally,Zn significantly reduced the gene and protein expression of TLR4,MYD88 and NF-κB p65.Conclusions Zn-Gly improved duck BW and alleviated intestinal injury by regulating intestinal morphology,barrier function and gut inflammation-related signal pathways TLR4/MYD88/NF-κB p65.

Mobile genetic elements facilitate the transmission of antibiotic resistance genes in multidrug-resistant Enterobacteriaceae from duck farms

Multidrug-resistant(MDR)Enterobacteriaceae critically threaten duck farming and public health.The phenotypes,genotypes,and associated mobile genetic elements(MGEs)of MDR Enterobacteriaceae isolated from 6 duck farms in Zhejiang Province,China,were investigated.A total of 215 isolates were identified as Escherichia coli(64.65%),Klebsiella pneumoniae(12.09%),Proteus mirabilis(10.23%),Salmonella(8.84%),and Enterobacter cloacae(4.19%).Meanwhile,all isolates were resistant to at least two antibiotics.Most isolates carried tet(A)(85.12%),blaTEM(78.60%)and sul1(67.44%)resistance genes.Gene co-occurrence analysis showed that the resistance genes were associated with IS26 and integrons.A conjugative IncFII plasmid pSDM004 containing all the above MGEs was detected in Proteus mirabilis isolate SDM004.This isolate was resistant to 18 antibiotics and carried the blaNDM-5 gene.MGEs,especially plasmids,are the primary antibiotic resistance gene transmission route in duck farms.These findings provide a theoretical basis for the rational use of antibiotics in farms which are substantial for evaluating public health and food safety.

River width and depth as key factors of diurnal activity energy expenditure allocation for wintering Spot-billed Ducks in the Xin'an River Basin

Rivers are important habitats for wintering waterbirds.However,they are easily influenced by natural and human activities.An important approach for waterbirds to adapt to habitats is adjusting the activity time and energy expenditure allocation of diurnal behavior.The compensatory foraging hypothesis predicts that increased energy expenditure leads to longer foraging time,which in turn increases food intake and helps maintain a constant energy balance.However,it is unclear whether human-disturbed habitats result in increased energy expenditure related to safety or foraging.In this study,the scan sample method was used to observe the diurnal behavior of the wintering Spot-billed Duck(Anas poecilorhyncha) in two rivers in the Xin’an River Basin from October 2021 to March 2022.The allocation of time and energy expenditure for activity in both normal and disturbed environments was calculated.The results showed that foraging accounted for the highest percentage of time and energy expenditure.Additionally,foraging decreased in the disturbed environment than that in the normal environment.Resting behavior showed the opposite trend,while other behaviors were similar in both environments.The total diurnal energy expenditure of ducks in the disturbed environment was greater than that in the normal environment,with decreased foraging and resting time percentage and increased behaviors related to immediate safety(swimming and alert) and comfort.These results oppose the compensatory foraging hypothesis in favor of increased security.The optimal diurnal energy expenditure model included river width and water depth,which had a positive relationship;an increase in either of these two factors resulted in an increase in energy expenditure.This study provides a better understanding of energy allocation strategies underlying the superficial time allocation of wintering waterbirds according to environmental conditions.Exploring these changes can help understand the maximum fitness of wintering waterbirds in response to nature and human influences.

Strategies to improve genomic predictions for 35 duck carcass traits in an F2 population

Background Carcass traits are crucial for broiler ducks,but carcass traits can only be measured postmortem.Genomic selection(GS)is an effective approach in animal breeding to improve selection and reduce costs.However,the performance of genomic prediction in duck carcass traits remains largely unknown.Results In this study,we estimated the genetic parameters,performed GS using different models and marker densi-ties,and compared the estimation performance between GS and conventional BLUP on 35 carcass traits in an F2 population of ducks.Most of the cut weight traits and intestine length traits were estimated to be high and moder-ate heritabilities,respectively,while the heritabilities of percentage slaughter traits were dynamic.The reliability of genome prediction using GBLUP increased by an average of 0.06 compared to the conventional BLUP method.The Permutation studies revealed that 50K markers had achieved ideal prediction reliability,while 3K markers still achieved 90.7%predictive capability would further reduce the cost for duck carcass traits.The genomic relationship matrix nor-malized by our true variance method instead of the widely used 2pi(1-pi)could achieve an increase in prediction reliability in most traits.We detected most of the bayesian models had a better performance,especially for BayesN.Compared to GBLUP,BayesN can further improve the predictive reliability with an average of 0.06 for duck carcass traits.Conclusion This study demonstrates genomic selection for duck carcass traits is promising.The genomic prediction can be further improved by modifying the genomic relationship matrix using our proposed true variance method and several Bayesian models.Permutation study provides a theoretical basis for the fact that low-density arrays can be used to reduce genotype costs in duck genome selection.

Inhibitory effect of coriander(Coriandrum sativum L.)extract marinades on the formation of polycyclic aromatic hydrocarbons in roasted duck wings

Coriander(Coriandrum sativum L.)is recognized for its antioxidant property,as a kind of natural phenolic-rich ingredient.Polycyclic aromatic hydrocarbons(PAHs)present a class of heat-driven hazards in foods,especially the processed meat.In this study,the effect of coriander root and leaf extract on the formation and inhibition of PAH8 in roasted duck wings was firstly investigated.Coriander root extract(CRE)and coriander leaf extract(CLE)with five concentration groups(200,400,600,800,1000 mg/L)were prepared respectively to marinate the duck wings.CRE marinade exhibited greater inhibitory effect on PAH8 formation in roasted duck wings that ranged from 65.0%-87.4%.The electron spin resonance study indicated a significantly positive correlation between PAH8 and free radical level,suggesting the participation of radicals in PAHs formation.Also,it was speculated that the inhibitory effect on PAH8 was related to the phenolic compounds identified in coriander marinades.CRE made greater inhibitory effect on the formation of PAH8 and could be considered as a kind of natural source to mitigate PAHs in heat-processed meat products.

FMO3 deficiency of duck leads to decreased lipid deposition and increased antibacterial activity

Background:Most duck eggs possess a fishy odor,indicating that ducks generally exhibit impaired trimethylamine(TMA)metabolism.TMA accumulation is responsible for this unpleasant odor,and TMA metabolism plays an essen-tial role in trimethylaminuria(TMAU),also known as fish odor syndrome.In this study,we focused on the unusual TMA metabolism mechanism in ducks,and further explored the unclear reasons leading to the debilitating TMA metabolism.Methods:To achieve this,transcriptome,proteome,and metagenome analyses were first integrated based on the constructed duck populations with high and low TMA metabolism abilities.Additionally,further experiments were conducted to validate the hypothesis regarding the limited flavin-containing monooxygenase 3(FMO3)metabolism ability of ducks.Results:The study demonstrated that liver FMO3 and cecal microbes,including Akkermansia and Mucispirillum,par-ticipated in TMA metabolism in ducks.The limited oxidation ability of FMO3 explains the weakening of TMA metabo-lism in ducks.Nevertheless,it decreases lipid deposition and increases antibacterial activity,contributing to its survival and reproduction during the evolutionary adaptation process.Conclusions:This study demonstrated the function of FMO3 and intestinal microbes in regulating TMA metabolism and illustrated the biological significance of FMO3 impairment in ducks.

基于改进YOLOv5l的轻量化鸭蛋裂纹检测算法

鸭蛋裂纹检测技术对于禽蛋加工工厂实现智能化蛋品检测、分级具有重要意义。该研究针对鸭蛋裂纹检测流程复杂、计算量大、模型尺寸大等问题,提出了一种基于改进YOLOv5l(you only look once version5 large)的轻量裂纹检测算法,通过在黑暗条件下使用LED灯照射鸭蛋,根据裂纹蛋壳与完好蛋壳透光性不同产生的图像差异进行检测。通过在YOLOv5中引入Ghost_conv模块,大大减少了模型的浮点计算量和参数量,并在模型的骨干网络中加入ECA(efficient channel attention)注意力机制以及使用多尺度特征融合方法 BIFPN(bi-directional feature pyramid network),增加模型对有效信息的关注度,以提高算法检测精度。同时使用CIoU与α-IoU损失函数融合后替代YOLOv5原始GIoU函数加速回归预测。利用自建的鸭蛋裂纹数据集验证改进后模型的性能,结果表明,本研究提出的改进YOLOv5l网络模型检测精准率为93.8%,与原始YOLOv5l模型相比,检测精度提高了6.3个百分点,参数量和浮点计算量分别减少了30.6%、39.4%。检测帧速率为28.954帧/s,较原始YOLOv5l模型仅下降3.824帧/s。与其他的目标检测常用网络SSD(single shot multibox detector)、YOLOv4、Faster-RCNN(faster region convolutional neural networks)相比,精度分别提高了13.1、12.5、8.2个百分点。本研究提出的方法能够在低硬件资源条件下进行高精度检测,可为实际场景应用提供解决方案和技术支持。

海南东寨港集约化海鸭养殖对红树植物生长及底栖动物的影响

为探究红树林区集约化海鸭养殖对红树植物生长及底栖动物生存的影响,在海南东寨港集约化海鸭养殖区选取以海莲和角果木为优势种的两个调查区域,并分别对以海莲为优势种的海鸭养殖区内圈养地、圈养地外围、弃养2 a、弃养5 a和未圈养地的海莲幼苗存活率、呼吸根密度、成年植株生长状况和底栖动物以及以角果木为优势种的海鸭养殖区内离圈养地不同距离处角果木成年植株死亡率、幼苗存活率、底栖动物进行了调查。结果表明:集约化海鸭养殖阻碍了红树植物幼苗和呼吸根的更新,严重干扰了红树植物的生存,圈养地底栖动物密度和生物量显著低于其他林地。海南东寨港集约化海鸭养殖对红树林造成了显著的负面影响。

Roast Duck in Zhengzhou

When we talk about roast duck,most of the people would think of Beijing Roast Duck.Yes,Beijing Roast Duck is delicious definitely.However,today I’d like to talk about Zhengzhou Roast Duck,which is in my hometown.The most famous restaurant of roast duck in Zhengzhou is located in Renmin Road.Many people in Zhengzhou and the tourists who come to Zhengzhou would like to taste the roast duck there.

不同因素对咸鸭蛋“黑黄”产生的影响

为分析影响盐腌鸭蛋中“黑黄”产生的因素,本实验通过色度值和金属离子含量测定以及蛋白质组学分析,对比“黑黄”咸蛋和正常咸蛋不同部位的差异,初步确定与“黑黄”形成有关的因素,再通过单因素试验进一步研究这些因素对黑黄形成程度和速率的影响。结果表明,Fe、Cu含量越高,蛋黄色度值越小,“黑黄”越黑,推测卵黄高磷蛋白中Fe2+与S2-结合形成的硫化物是使蛋黄变黑的原因,半胱氨酸的降解脱硫是蛋黄产硫的主要原因。微生物浓度、温度、pH值是影响黑黄产生的主要因素,鸭蛋载菌量和腌制温度越高,黑黄率越高;pH7.0~8.0范围内均可产生H2S,其中pH7.5时产气速率最快。综上,可以推测“黑黄”是由蛋黄内硫元素与铁元素之间的变色反应造成,腌制过程中的温度、pH值以及鸭蛋本身的载菌量对“黑黄”现象均有较大影响。

娄门鸭胸肌性状相关指标的全基因组关联分析

为寻找与鸭胸肌性状相关的候选基因,鉴定鸭胸肌性状相关分子标记,试验以199只娄门鸭为试验材料,采集血液提取DNA,用基因组重测序方法进行基因分型,利用PLINK 1.90对分型结果进行质控后,采用rMVP软件中的FarmCPU模型对SNPs(Single nucleo⁃tide polymorphisims)与胸宽、胸深、胸肌重和胸肌率4个性状指标做GWAS分析,定位出显著位点。结果显示:与胸宽相关的SNPs位点有4个,位于1、11、18号染色体上;与胸肌重相关的SNPs位点有2个,位于2、3号染色体上;与胸肌率相关的SNPs位点有2个,位于2号染色体上。通过基因功能注释,这些位点对应的胸肌性状候选基因有8个,分别是LOC119715526、RLBP1、ABHD2、KYAT1、SPOUT1、LOC101800569、EVA1A和NOL4。研究表明,在不同染色体上共鉴定到8个与胸肌性状显著相关的SNPs位点,这些位点共涉及8个候选基因。

粤北地区鸭源沙门菌分离鉴定及生物学特性研究

为了解粤北地区鸭源沙门菌流行菌株生物学特性,本研究对鉴定的鸭源沙门菌菌株进行了血清型鉴定、毒力基因检测、药敏试验及致病性初步试验。结果显示,病死鸭组织沙门菌分离率为57.14%(16/28);鉴定为鼠伤寒沙门菌占62.5%(10/16),肠炎沙门菌占31.25%(5/16)。分离菌株最少携带了12个毒力基因,最多携带了19个毒力基因。分离菌株对阿莫西林、青霉素、罗红霉素等耐药率超过90%,对多西环素、大观霉素、环丙沙星、阿米卡星等较为敏感,所有菌株呈多重耐药。分离菌株可导致小鼠发病和部分死亡。研究结果表明,沙门菌在粤北地区发病肉鸭中有较高感染率,流行的优势血清型为鼠伤寒沙门菌和肠炎沙门菌,流行菌株普遍存在多重耐药性且具有一定的致病性。

真空低温蒸煮鸭胸肉的水分迁移及风味物质变化规律

为探究鸭胸肉在真空低温蒸煮过程中水分迁移及挥发性风味物质的变化规律,分别将鸭胸肉的中心温度加热至60、65、70、75、80℃,并以100℃加热的鸭胸肉为空白对照,测定不同中心温度下鸭胸肉的水分自由度及挥发性风味物质。结果表明:真空低温蒸煮鸭胸肉烹饪失水率较低,不易流动水占比和感官评分较高。从鸭胸肉中共检出59种挥发性风味物质,低温组中的挥发性风味成分的种类及含量均远高于对照组。利用气味活性值筛选出20种特征挥发性风味物质,对20种特征风味物质进行主成分分析,得到真空低温蒸煮鸭胸肉风味强度评价模型为:F=0.49F_1+0.24F_2+0.13F_3,模型特征性风味强度评价结果与感官评分相关系数为0.89(P<0.05),该模型可应用于真空低温蒸煮鸭胸肉的风味评价。

鸭TLR2在免疫组织和血液中的表达分析及多克隆抗体制备

为研究Toll样受体2(TLR2)在水禽如鸭先天免疫中的作用,利用荧光定量PCR分析dTLR2 mRNA在1~10周龄鸭免疫器官中表达水平以及大肠杆菌、沙门氏菌感染后血液中dTLR2 mRNA表达变化,初步解析dTLR2在鸭抗感染中的可能作用;通过体外表达鸭dTLR2胞外段,并免疫家兔获得特异性抗体以期为鸭dTLR2免疫应答研究提供生物素材。结果表明,dTLR2 mRNA在不同周龄鸭免疫器官中都有表达,脾脏和胸腺组织中,表达量在不同周龄有显著或极显著变化,但在法氏囊组织中,各周龄间表达变化差异不显著;鸭感染大肠杆菌或者沙门氏菌后,第1天及第2天感染组表达量显著高于对照组,但在第3天时,感染组和对照组表达量差异不显著。研究分析dTLR2编码基因,预测胞外区段并设计引物,构建pET28a-TLR2重组表达质粒,重组表达dTLR2-His融合蛋白。经SDS-PAGE检测表明,重组蛋白成功高效表达,分子质量约29 ku。重组蛋白经镍柱纯化并透析后免疫家兔制备抗血清;所获家兔免疫抗血清能特异性的识别重组TLR2蛋白和组织中内源性TLR2蛋白。鸭dTLR2 mRNA组织中表达分析及多克隆抗体的成功制备将为进一步研究dTLR2的生物学功能提供生物素材。

番鸭VIPR1和miR-317以及MAP3K7和miR-244靶向关系的研究

试验旨在验证番鸭就巢相关miRNA与靶基因靶向关系。试验利用miRanda、PITA和RNAhybrid三个软件的交集预测miR-317和miR-244靶基因,构建VIPR1-pmirGLO/MAP3K7-pmirGLO野生型和突变型双荧光素酶重组载体,将miR-317/VIPR1-Wt和miR-244/MAP3K7-Wt分别共转染至鸭胚成纤维细胞,检测双荧光素酶活性。结果显示:与miR-NC组相比,miR-317/VIPR1-Wt共转染组相对荧光值显著降低(P<0.05);VIPR1突变后,miR-NC组与miR-317组的相对荧光值不显著(P>0.05),说明突变后完全抑制miR-317对VIPR1的结合作用,VIPR1与miR-317之间存在相互结合作用。与miR-NC组相比,miR-244/MAP3K7-Wt共转染组相对荧光值无显著性差异(P>0.05);MAP3K7突变后,miR-NC组与miR-244组的相对荧光值差异不显著(P>0.05),表明MAP3K7与miR-244之间不存在相互结合作用。研究提示,miR-317与VIPR1存在确切靶向结合位点,即VIPR1是miRNA miR-317的靶基因,而miR-244与MAP3K7不存在靶向关系。

咸鸭蛋黄品质劣化分析与调控技术的研究进展

鸭蛋经食盐腌制加工成的咸蛋,是我国传统蛋制品之一,蛋黄质量好坏常被用来评价咸蛋的品质。鸭蛋盐渍过程中蛋黄黑化和泥化是影响咸蛋品质的劣化现象,该研究从蛋黄颜色劣变造成的蛋黄黑化现象和质地过度软化劣变造成的蛋黄泥化现象两个方面介绍了蛋品加工过程中品质劣变的表征及影响因素,重点综述了类似的蛋、肉、蔬菜等食品硫化致黑和氧化致软两种品质劣变的机制和控制技术及其效果。为鸭蛋加工的标准化、工业化以及安全化生产咸蛋提供理论支持。

SNPs分子标记在地方品种鸭鉴定中的应用

为建立利用分子标记鉴定高邮鸭等优异地方品种资源的方法,研究在全基因组范围内比较分析高邮鸭、绍兴鸭、建昌鸭、北京鸭等多个地方品种鸭遗传变异信息,筛选高邮鸭、绍兴鸭、建昌鸭品种特异性SNPs分子标记组合,基于贝叶斯定理计算SNPs分子标记组合鉴定概率,建立地方鸭品种鉴定方法。结果显示:获得高邮鸭、绍兴鸭、建昌鸭品种特异性SNPs分子标记数分别为7个、8个和6个,针对上述SNPs位点分别设计引物,共21对引物,选用不同引物组合,经PCR反应和测序鉴别鸭品种,鉴定准确率100%,利用贝叶斯公式计算品种内任意基因型及其组合的鉴定准确概率,其中任意对基因型鉴定准确概率最低为71.94%。综上所述,研究成功筛选到高邮鸭、绍兴鸭、建昌鸭特异性分子标记,并建立操作简便、准确性高的品种鉴定方法,为地方鸭种质资源鉴定提供可靠的分子鉴定手段。

基于透射图像的高压脉动腌制咸鸭蛋含盐量检测

含盐量是衡量咸鸭蛋品质的重要指标。为了利用机器视觉技术实现高压脉动腌制咸鸭蛋含盐量的无损检测。该研究采用工业相机和透射光源搭建咸鸭蛋的透射图像采集装置。采用图像整体特征和长轴截面光强度特征两种特征提取方法,利用多元线性回归、支持向量机回归两种算法,建立对蛋清、蛋黄及全蛋含盐量以及蛋黄指数的定量预测模型。结果表明,随着咸鸭蛋腌制时间的增加,其透光性显著提高。同时,透射图像蛋黄的所在视野区域会随着含盐量的增加而呈现规律性的变化。基于图像整体特征建立的蛋清、蛋黄、全蛋含盐量模型较优,在蛋黄指数预测下基于长轴截面光强度特征所建模型较优。其中,基于图像整体特征所建立的蛋黄含盐量支持向量机回归(support vector regression,SVR)模型最优,测试集相关系数(test set correlation coefficient,Rp)、测试集均方根误差(root mean square error of prediction,RMSEp)、相对分析误差(residual predictive deviation,RPD)分别达到0.8460、0.3416、1.898;基于长轴截面光强度特征建立的蛋黄指数多元线性回归(multiple linear regression,MLR)模型最优,测试集相关系数Rp、均方根误差RMSEp、相对分析误差RPD分别为0.8318、0.0743、1.916。该研究结果为咸鸭蛋含盐量的快速检测提供理论依据和技术支持。

安徽地区新型鸭呼肠孤病毒的分离鉴定及其σC基因序列分析

为掌握新型鸭呼肠孤病毒(NDRV)的最新流行特征,本研究收集安徽某地区鸭场出现肝组织肿胀、出血等临床症状的25份雏鸭肝脏及脾脏样品,利用RT-PCR方法检测NDRV。将RT-PCR检测为阳性的病料样品接种SPF鸡胚分离病毒,收获第3代尿囊液进行PCR检测及病毒纯净性鉴定;同时对NDRV分离株的全长σC基因进行克隆并测序,将测序所得的分离株σC基因序列与GenBank中登录的21株禽源呼肠孤病毒参考株的相应基因序列及推导氨基酸序列进行相似性比对分析,利用Mega 7.0软件构建分离株基于σC基因的系统进化树,并进行σC基因编码氨基酸序列的突变分析。将分离株接种Vero细胞观察其体外培养特性,感染雏鸭进行致病性试验。结果显示,25份病料样品中检出3份NDRV阳性样品,将阳性病料样品接种鸡胚3 d内,鸡胚全部死亡,并伴有水肿、严重充血等现象;病毒纯净性试验结果显示,病料样品仅NDRV呈阳性,其他病原如鸭甲型肝炎病毒(DHV)、鸭坦布苏病毒(DTMUV)、禽呼肠孤病毒(ARV)、番鸭呼肠孤病毒(MDRV)、H9亚型禽流感病毒(H9N2 AIV)及禽腺病毒(FAdV)均为阴性。将3株分离株经测序分析,结果显示,其目的基因序列完全一致,为同一株病毒,并将其命名为NDRV AH株。对NDRV AH株σC基因进行序列相似性分析发现,NDRV AH株与其他NDRV参考株σC核苷酸序列的相似性为89.5%~99.0%,氨基酸序列的相似性为85.3%~98.9%。σC基因的遗传演化结果显示,NDRV AH株属于基因2型。σC氨基酸比对分析结果显示,与灭活疫苗TH11株(KC493571.1)相比,NDRV AH株aa67、aa93、aa100、aa132、aa151、aa158、aa212、aa253和aa298均发生了突变。将该分离株接种Vero细胞,可观察到细胞出现形态圆缩、细胞核聚集等细胞病变。致病性试验结果显示,感染雏鸭死亡率为40%,剖检发现雏鸭肾脏、肝脏出血,脾脏肿大,有轻微坏死灶或大面积坏死灶,有些脾脏质地较硬。可见大面积坏死灶。本研究揭示了NDRV在我国安徽地区的分子流行病学特征,为变异株疫苗研发奠定了基础,对NDRV感染的防治具有重要意义。

鸭疫里默氏菌感染对鸭生长发育及肠黏膜屏障功能的影响

为了为鸭疫里默氏菌与机体的相互作用及作用机制研究提供基础数据,以雏鸭为研究对象,开展鸭人工感染鸭疫里默氏菌试验,分别测定感染组和对照组1、2、3、5、9、14 d等不同时间段的体质量、小肠各肠段的长度以及血浆中内毒素和血清中乳酸脱氢酶含量;荧光定量PCR法检测肠黏膜屏障功能相关基因MUC2和MYLK的表达量,探讨鸭疫里默氏菌感染对鸭生长发育和肠黏膜屏障功能的影响。结果表明,与对照组相比,感染组5、9 d体质量显著降低;感染鸭疫里默氏菌5 d十二指肠和空肠的长度显著降低;感染鸭疫里默氏菌1 d血浆中内毒素和血清中乳酸脱氢酶的含量均显著增加;鸭人工感染鸭疫里默氏菌的MUC2和MYLK表达量在十二指肠和空肠主要表现为下调,而在回肠MUC2的表达量表现为先下降再上调,MYLK的表达量表现为先下调再恢复至对照水平。综上,鸭人工感染鸭疫里默氏菌会减缓鸭的体质量增长和小肠生长,引起鸭的肠黏膜屏障功能相关基因的表达发生变化。