芸薹属及其他异源多倍体植物的基因表达特征研究进展

远缘杂交及异源多倍化导致许多重要作物的起源与进化，而芸薹属栽培异源四倍种是研究作物异源多倍化的模式系统之一。异源多倍体是如何调控及协调来自不同二倍体祖先的不同基因组的遗传行为及基因表达，是过去二十年间的研究热点和重要的生物学问题。利用不断发展的分子生物学技术，一方面揭示出芸薹属及其他多倍体物种基因组表现出动态性质，即在形成初期及长期进化过程中持续发生遗传及表观遗传的变化；另一方面发现异源多倍化过程中伴随着大量的基因表达模式改变，包括非加性表达、超亲表达、表达水平显性、部分同源偏向表达、基因剂量平衡效应等现象。上述基因组结构、表观遗传改变以及基因表达模式的调控，使新产生的多倍体得以成功进化为新物种。     

Genetic Engineering Approaches to Pig Production*

Modern biotechnology promises a number of new applications in animal breeding and production. Although conventional pig breeding has achieved a high level of efficiency and productivity numerous problems have been encountered with animal health and the loss of meat quality. Selection based on phenotypic performance data of individual animals does not take into account the importance of specific genes and their relevance within a complex regulatory system. In most cases it is therefore difficult to trace back the genetic origins of clinically important disorders. The application of genetic engineering techniques in pig production will facilitate diagnosis, improvement of productivity, and animal health by allowing direct genetic manipulation. Attention must be focussed on the physical and genetic analysis of the procine genome. The isolation and characterisation of genes, DNA-markers, polymorphic DNA-fragments, and their chromosomal assignment will be important prerequisites and tools for the elucidation of genetic disorders. Especially the detection of heterozygous carriers of recessive disorders and their elimination from the breeding stock will increase selection accuracy and decrease the generation intervals. But also the rapid and simple detection of infectious diseases, which is sometimes difficult if not impossible at present, will improve animal health and welfare. Although the production of transgenic animals either by DNA-microinjection into zygotes or the use of embryonal stem cells manipulated in vitro is less straightforward than DNA-based diagnosis it will play an important role in the direct manipulation of the porcine genome and genes. Breeding programmes including the use of transgenic livestock have already been developed. There is no doubt that genetic engineering has reached a degree of practical feasibility, allowing it to play an important role in pig breeding in particular and animal production in general.     

苹果基因组分子生物学研究进展

借助分子标记手段苹果基因组研究取得了巨大成就,涉及苹果的抗性、生长发育、果实品质等各方面基因,综合有关文献,将其研究的主要成果,包括已发现的主要苹果遗传标记、已构建的苹果遗传连锁图谱及苹果的转基因研究进行综述,并对目前苹果基因组研究存在的问题和对策进行了分析,以期为苹果遗传育种提供参考。     

Identification of a class of CFEM proteins containing a new conserved motif in Fusarium oxysporum

Fusarium oxysporum (Fo) is an important soil-borne fungus that cause huge economic losses worldwide. Fungal-specific Common in Fungal Extracellular Membrane (CFEM) proteins are known to be involved in some important physiological processes associated with pathogenicity. To date, few Fo CFEM proteins have been characterized. The recent publication of several genomes of Fo has allowed us to conduct a genome-wide comparison analysis of CFEM proteins in Fo. In this study, we identified CFEM proteins for 12 different Fo formae speciales(f. sp) and obtained an average of 16 CFEM proteins for each Fo. The Fo CFEM proteins were classified into three groups (groups 1–3) according to structural features. Importantly, we identified a new conserved motif containing about 50 amino acids (DR motif) in group 1 members. CFEM proteins containing DR motif (CFEM_DR proteins) are remarkably conserved among Fo, and their number is greater in Fo compared with other fungi. We found the expansion of CFEM_DR proteins in Fo can be attributed to the segmental duplications in the genomes. Expression analysis revealed that CFEM_DR genes had a higher expression level in mycelium than conidia, and their expressions increased dramatically in the host roots at 3 days post inoculation, indicating that Fo CFEM_DR genes have roles while colonizing and infecting their hosts.     

Whole-genome sequence of a novel Chinese cyprinid herpesvirus 3 isolate reveals the existence of a distinct European genotype in East Asia

Cyprinid herpesvirus 3 (CyHV3), also known as koi herpesvirus (KHV), can be subdivided primarily into European and Asian genotypes, which are represented by CyHV3-U or CyHV3-I and CyHV3-J, respectively. In this study, the whole genome sequence of a novel Chinese CyHV3 isolate (GZ11) was determined and annotated. CyHV3-GZ11 genome was found to contain 295,119 nucleotides with 52.9% G/C content, which is highly similar to those of published CyHV3-U, CyHV3-I, and CyHV3-J strains. With reference to CyHV3-U, CyHV3-I, and CyHV3-J, CyHV3-GZ11 was also classified into 164 open reading frames (ORF), which include eight repeated ORFs. On the basis of the 12 alloherpeviruses core genes, results from phylogenetic analysis showed that CyHV3-GZ11 had closer evolutionary relationships with CyHV3-U and CyHV3-I than with CyHV3/KHV-J, which were also supported by genome wide-based single nucleotide substitution analysis and the use of a series of developed molecular markers. This study was the first to reveal the presence of a distinct European CyHV3 genotype in East and Southeast Asia at a whole genome level, which will evoke new insights on exploring the origin, evolution, and epidemiology of the virus.     

利用CRISPR/Cas9技术创建OsCOL9水稻突变体

CRISPR/Cas9系统可对植物的内源基因进行有效定点编辑,为作物的遗传育种提供了新的方向。以感病水稻品种丽江为材料,抗病基因OsCOL9为靶基因,探索该系统对水稻内源基因定点编辑效率以及获得有研究意义的突变体。OsCOL9基因CDS序列全长1 266 bp,编码一个422 aa蛋白,分子量大小约为45.6 k Da,蛋白质结构的N端含有B-box结构域,C端含有CCT(CONSTANS、CONSTANS-Like、TOC1)结构域。设计4个长20 nt的guide RNAs(gRNAs)靶点,靶向编辑OsCOL9基因的CDS起始区域以及外显子的末端,分别由U3、U6a、U6b以及U6c启动子驱动,提取T1转基因植株的基因组DNA并对编辑位点附近的DNA片段进行序列分析。结果表明,T1材料中OsCOL9的碱基缺失数最多可达59 bp,突变次数最多可达11次,取得较好的基因编辑效果。同时本试验出现了脱靶效应,因此着重探讨了降低脱靶效应的方法。由于CRISPR/Cas9系统在进行基因编辑时没有外源基因的导入,加上该技术的快捷、简便,对生物技术与传统育种的结合具有重要实践意义。     

重组减蛋综合征病毒KnobS干酪乳杆菌的构建与表达

以干酪乳杆菌为传递载体,以开发食品级安全的减蛋综合征病毒疫苗为目标,构建了一个温度敏感型自杀型质粒系统p ORZP-UKD。将该质粒电转化到干酪乳杆菌L.casei中,经过2次升温处理和5-氟尿嘧啶抗性筛选,挑选阳性克隆,采用PCR和SDS-PAGE方法进行鉴定。KnobS基因整合到干酪乳酸杆菌基因组内,并实现融合蛋白KnobS的分泌表达。表明得到了一株具有无任何选择性标记、携带有KnobS表达盒元件的基因组整合的重组干酪乳酸杆菌KnobSΔupp L.casei,且整合的外源基因能够随着细菌的复制而进行表达,为减蛋综合征病毒免疫保护性抗原KnobS疫苗的进一步研制提供了试验数据。     

小型猪近交系新品种的培育与开发利用

小型猪近交系是中国农业科学院北京畜牧兽医研究所以2头五指山猪(Sus scrofa)为系祖,历时15年,采用“近亲交配”、提高营养水平、同期发情以及笼架等饲养技术,逐步克服后代畸形率高、弱仔率高、成活率低等3大阶段性难题,育成国际上首个近交系猪.本文介绍小型猪近交系的培育过程、近交系研究鉴定、新遗传资源种质特性,以及开发利用.该研究成果填补了国内外近交系猪的研究空白,为大型哺乳近交系动物培育理论和应用研究提供了新的视角.     

几种中国野生菊的染色体组分析及亲缘关系初步研究

通过对不同倍性的几种中国野生菊之间杂种F1减数分裂期染色体的配对分析,对它们的亲缘关系和演化过程进行了研究。观察到甘菊(Dendranthema lavandulifolium)和菊花脑(D.nankingense)是两个亲缘关系较近、但已发生了某种程度分化的二倍体;南京野菊(D.indicum)和尖叶野菊(D.indicum var.acutum)是含有相同染色体组的异源四倍体,毛华菊(D.sestitum)为异源六倍体,它们在减数分裂中期Ⅰ,染色体均能较好地配成二价体构型。尖叶野菊(4x)与菊花脑(2x)、南京野菊(4x)与毛华菊(6x)的F1,染色体配对构型分别接近于9Ⅰ 9Ⅱ和9Ⅰ 18Ⅱ,表明菊花脑或其近缘种是尖叶野菊染色体组之一的供体,南京野菊或其近缘种是毛华菊两个染色体组的供体。本文还对这几种菊属植物的演化过程进行了讨论。