小麦族的基因组显性及其育种学意义     

LIU Deng-Cai  ZHANG Lian-Quan  HAO Ming  HUANG Lin  NING Shun-Zong  YUAN Zhong-Wei  JIANG Bo  YAN Ze-Hong  WU Bi-Hua  ZHENG You-Liang 《作物学报》2020,46(10):1465-1473

小麦族包含大量由不同基因组组成的异源多倍体物种。同一个异源多倍体物种的不同基因组可能对表型性状产生非对称性贡献,例如小麦属多倍体物种的形态分类特性,更像其A基因组供体物种,这种现象称为A基因组显性。由于基因组显性,小麦族形成了以A、D、U、St为轴心(显性)基因组的异源多倍体物种簇。异源多倍体物种的基因组显性可能与其进化适应优势的形成有关。在育种方面,基因组显性影响多倍体新作物开发及小麦-外源染色体易位设计。  相似文献   

Genome-edited crops: how to move them from laboratory to market     

Kunling CHEN  Caixia GAO 《农业科学与工程前沿(英文版)》2020,7(2):181-187

Recent breakthroughs in CRISPR technology allow specific genome manipulation of almost all crops and have initiated a revolution in precision crop breeding. Rationally-based regulation and widespread public acceptance are needed to propel genome-edited crops from laboratory to market and to translate this innovative technology into agricultural productivity.  相似文献   

微生物菌群培养组学在动物医学中的应用     

彭娜  彭先启  乐敏 《畜牧兽医学报》2020,51(12):2942-2953

实验室条件下可培养的微生物约占自然界中微生物总数的1%，这限制了人们对99%未知微生物的认识和利用，而研究表明，那些“不可培养的微生物”是可以被开发和利用的，未能被纯培养的微生物才是未知微生物的主体。微生物培养组学探索利用多种培养条件和长时间的培养，结合基质辅助激光解吸电离飞行时间质谱法（MALDI-TOF-MS）和16S核糖体RNA（rRNA）测序可以大规模鉴定各种微生物，同时利用全基因组测序和宏基因组测序手段对未知微生物进行深入分析。本文综述了国内外近年来微生物菌群培养组学在反刍动物胃肠道、禽类盲肠及家畜鼻腔微生物菌群研究中的最新进展，探讨将动物体内菌群培养组学方法应用于动物疾病防治领域的可行性。作为一个新兴的研究方法，尽管该培养组学还存在一些不够成熟的方面，但它的发展前景十分广阔，微生物菌群培养组学方法和其他研究方法的互补已经逐渐成为发展兽医微生物学新的突破口。  相似文献   

茶树咖啡碱合成酶CRISPR/Cas9基因组编辑载体的构建   总被引：3，自引：0，他引：3  

唐雨薇  刘丽萍  王若娴  陈宇宏  刘仲华  刘硕谦 《茶叶科学》2016,(4):414-426

CRISPR/Cas9技术是一门新兴的基因组定点编辑技术,具有操作简单、高效的优点,可轻松实现对目标基因的敲除、替换和定点突变等操作。该技术刚诞生,就受到了全球生命科学领域研究者的关注,不到3年的时间就已经成功应用于多种动、植物当中。然而CRISPR/Cas9技术在茶树中的应用面临载体构建问题,本文以茶树咖啡碱合成酶为例,联合采用常规PCR、Overlapping PCR和Golden Gate Cloning技术,构建了包含茶树咖啡碱合成酶双靶点的CRISPR/Cas9基因编辑载体,为CRISPR/Cas9介导的基因组编辑技术在茶树中的应用奠定了坚实基础。  相似文献   

Cloning and Sequence Analysis of Complete Genome of Porcine Circovirus Type 2 from Liaoning Province     

DONG Ye  GUO Shi-qi  SUN Xue  SHEN Guo-shun  LIU Li-xia 《中国畜牧兽医》2015,42(11):2895-2901

It was aimed to lay a foundation for epidemiological survey of porcine circovirus type 2(PCV2) in Liaoning province and selection of highly homologous strain inactivated vaccine.Some pigs suspected of having postweaning multisystemic wasting syndrome (PMWS) from Shenyang,Chaoyang,Tieling,Dalian and other places in Liaoning province,were detected by PCR method,then the whole genome of 10 positive samples were cloned and sequenced.The result showed that all of them were virulent strains,9 strains were 1767 bp and 1 strain was 1768 bp,and there was a T base additon at 1039 bp.The nucleotide homology was 95.1% to 98.5% with HM038034 and JQ692110.In the phylogenetic tree,JHZ2 was PCV2a type,the other 9 strains were PCV2b type,DLS38,LYD32 and SYX7 were in the same branch and same onset time.The amino acid homology of ORF2 was 89.6% to 100.0%,there were 35 mutation points,large degree of variation,the only glycosylation site (NYS) was conserved.10 strains did not change significantly,mutants were not due to PCVD,PCV2b was the predominant type,and PCV2 was related with seasonality.  相似文献   

棉花单核苷酸多态性标记研究进展   总被引：1，自引：0，他引：1  

王振玉  李威  周晓箭  裴小雨  刘艳改  周克海  张文生  孟清芹  王海风 《棉花学报》2016,28(4):399-406

单核苷酸多态性标记已在农作物研究中得到广泛应用并取得重大进展。为了便利棉花SNP(Single nucleotide polymorphism)标记的研究和应用,介绍了利用基因芯片、简化基因组测序、重测序等在棉花中开发SNP标记的方法 ,综述了SNP标记在棉花遗传图谱构建、数量位点的定位和分子标记辅助育种、基因组测序以及系统进化等研究中的应用。并对异源四倍体棉花中SNP标记开发时,同源序列位点和部分同源序列位点上的SNP标记辨别问题进行了系统探讨,对其快捷的开发、检测方式和在数量基因定位中的应用前景进行了展望。  相似文献   

“中国春”小麦不同缺体的RAPD分析   总被引：1，自引：0，他引：1  

何聪芬  黄占景 《华北农学报》1996,11(3):31-34

利用ＰＣＲ－９０Ａ型ＤＮＡ扩增仪，对７个中国春小麦缺体核ＤＮＡ进行了扩增。结果显示，中国春小麦缺体核ＤＮＡ的ＲＡＰＤ产物可分为二种类型：（１）所有供试材料均能扩增出的片段，代表了核ＤＮＡ在进化上的保守性。有一个引物检测到这类片段。（２）全部供试材料间存在的差异片段，这类片段是用来基因定位的主要依据。另外，建立中国春小麦缺体系统的ＲＡＰＤ指纹图谱对研究小麦的系统进化也将有重要意义  相似文献   

1株库蠓源版纳病毒的分离与全基因组序列分析     

李占鸿  朱建波  寇美玲  杨振兴  李卓然  牛保生  姚萍芬  李华春  杨恒 《中国畜牧兽医》2021,48(3):781-791

为分析云南省虫媒病毒的种类与遗传特征,在云南省师宗县采集库蠓进行病毒的分离与鉴定;通过全长cDNA扩增与高通量测序技术获取病毒全基因组序列,进行序列比对与系统发生树构建。结果显示,从采集的库蠓样本中分离出1株可在C6/36细胞上引起细胞病变的毒株（YNSZ043）,病毒基因组为分节段双链RNA,琼脂糖凝胶电泳呈"2-4-3"的带型特征;电镜观察可见直径为70~80 nm,呈"指环状",表面具有纤维突起的病毒粒子。全基因组测序结果显示,YNSZ043毒株为版纳病毒（Banna virus,BAV）,基因组大小为20 683 bp,由Seg-1（3 762 bp）至Seg-12（861 bp）12个基因节段组成,与中国BAV毒株各基因节段的核苷酸序列相似性在64.8%~99.6%之间,氨基酸序列相似性在58.8%~100%之间,在系统发生树上YNSZ043毒株与中国分离的BAV聚为一簇,形成独立的中国进化支系。对决定BAV基因型的Seg-12分析结果显示,YNSZ043毒株属于A2基因型,该毒株的Seg-5/VP5与越南分离BAV毒株的核苷酸和氨基酸序列相似性高达97.1%和97.6%,表明该毒株的Seg-5基因节段很可能与越南毒株之间发生了基因重配。研究结果丰富了中国BAV的基因组序列,为开展云南省BAV的流行病学研究提供了参考。  相似文献   

Australian Cattle Dogs with Neuronal Ceroid Lipofuscinosis are Homozygous for a CLN5 Nonsense Mutation Previously Identified in Border Collies          下载免费PDF全文

A. Kolicheski  G.S. Johnson  D.P. O'Brien  T. Mhlanga‐Mutangadura  D. Gilliam  J. Guo  T.D. Anderson‐Sieg  R.D. Schnabel  J.F. Taylor  A. Lebowitz  B. Swanson  D. Hicks  Z.E. Niman  F.A. Wininger  M.C. Carpentier  M.L. Katz 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2016,30(4):1149-1158

  相似文献   

Accuracy of genomic prediction using imputed whole‐genome sequence data in white layers          下载免费PDF全文

M. Heidaritabar  M.P.L. Calus  H‐J. Megens  A. Vereijken  M.A.M. Groenen  J.W.M. Bastiaansen 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2016,133(3):167-179

There is an increasing interest in using whole‐genome sequence data in genomic selection breeding programmes. Prediction of breeding values is expected to be more accurate when whole‐genome sequence is used, because the causal mutations are assumed to be in the data. We performed genomic prediction for the number of eggs in white layers using imputed whole‐genome resequence data including ~4.6 million SNPs. The prediction accuracies based on sequence data were compared with the accuracies from the 60 K SNP panel. Predictions were based on genomic best linear unbiased prediction (GBLUP) as well as a Bayesian variable selection model (BayesC). Moreover, the prediction accuracy from using different types of variants (synonymous, non‐synonymous and non‐coding SNPs) was evaluated. Genomic prediction using the 60 K SNP panel resulted in a prediction accuracy of 0.74 when GBLUP was applied. With sequence data, there was a small increase (~1%) in prediction accuracy over the 60 K genotypes. With both 60 K SNP panel and sequence data, GBLUP slightly outperformed BayesC in predicting the breeding values. Selection of SNPs more likely to affect the phenotype (i.e. non‐synonymous SNPs) did not improve the accuracy of genomic prediction. The fact that sequence data were based on imputation from a small number of sequenced animals may have limited the potential to improve the prediction accuracy. A small reference population (n = 1004) and possible exclusion of many causal SNPs during quality control can be other possible reasons for limited benefit of sequence data. We expect, however, that the limited improvement is because the 60 K SNP panel was already sufficiently dense to accurately determine the relationships between animals in our data.  相似文献