AtSOS基因在紫花苜蓿中的表达及其耐盐性研究

本研究采用基因工程技术改良紫花苜蓿耐盐性,通过种植转基因耐盐紫花苜蓿达到改良土壤的目的。以紫花苜蓿子叶节为外植体,通过农杆菌介导法将来源于拟南芥的AtSOS1-AtSOS2-AtSOS3多基因表达载体导入阿尔冈金紫花苜蓿中,经PCR检测、抗除草剂筛选和RT-PCR鉴定,获得了能稳定表达的转基因株系。以转基因的紫花苜蓿和野生型紫花苜蓿为材料进行盐处理,每个处理重复3次,测定其生理生化指标、株高、Na⁺和K⁺含量、细胞膜透性、叶绿素含量。结果显示,在不同盐浓度处理下,所有植株的株高均有所增长,但在100和200 mmol·L^-1的NaCl处理下,转基因植株的长势显著高于野生型植株;随着处理时间的增加,所有植株的叶绿素含量均呈先上升后下降的趋势,且野生型植株叶绿素含量均低于转基因植株;在100和200 mmol·L^-1的NaCl处理下,转基因植株的细胞膜透性、超氧化物歧化酶活性和脯氨酸含量的增加量均小于野生型植株,而过氧化物酶、过氧化氢酶活性和可溶性糖含量的增加量均大于野生型;各植株中丙二醛含量均下降,且野生型植株下降的更为明显;盐处理后,转基因植株根系中Na⁺的积累比野生型植株少,而K⁺的吸收多于野生型植株。转AtSOS基因的紫花苜蓿通过发挥AtSOS途径的作用,促进了植物体将细胞内的Na⁺外排,从而减轻盐胁迫对植物体的伤害,提高了转基因植株的耐盐性。     

羊草叶绿体非编码区多态性标记筛选及群体遗传多样性

为筛选多态性丰富的羊草叶绿体非编码区片段,本研究以9个不同地理位置的羊草居群为材料,通过对12个叶绿体非编码区DNA片段测序及其序列间变异分析试图从中找出有遗传差异的叶绿体DNA(cpDNA)片段,并利用有多态性的cpDNA片段进行遗传多样性分析。结果表明,序列ndhF-rpl32、trnL-trnF、trnC-ycf6、aptI-aptH具有比较丰富的变异,可作为下一步研究野生羊草群体遗传学和谱系地理学较为理想的分子标记。在37个羊草个体4条非编码区片段的合并序列中,共检测到15种单倍型,单倍型多态性(Hd)为0.928,核苷酸多态性(Pi)为0.00101;遗传分化指数(Fst)为0.58884,基因流(Nm)为0.17,基因流较小;中性检验Tajima’s D(-1.08542)和Fu’s Fs(-5.301)均为负值,且差异不显著(P>0.10),推测羊草遵循中性进化理论,可能经历过种群扩张;AMOVA结果显示,65%的分子变异出现在居群间,35%出现在居群内;Mantel检验得到,遗传距离与地理距离具有显著相关性(r=0.449,P<0.05);居群分化值Nst 0.386(0.1865)大于Gst 0.234(0.1506),差异显著(P<0.05),表明羊草居群存在分子谱系地理结构。通过系统发育树分析得到,羊草15个单倍型分为两大分支,H2和H10聚为一支,它们与别的居群个体亲缘关系较远,其余单倍型聚为另一支;单倍型网络图显示,H2和H12、H10和H12亲缘关系较远,与系统发育树分析结果基本一致。本研究为羊草的种质资源保护、谱系地理学研究等工作奠定了基础。     

Innovative layer genetics to handle global challenges in egg production

1. In commercial layer breeding, extensive gene pools are tested and selected for market requirements which must be anticipated at least 5 years ahead. Field results confirm a continuous positive genetic trend in egg output and better feed efficiency which can be converted into land savings.

2. Animal welfare and cage-free housing dominate future needs of the market. Nesting behaviour and minimal tendency to develop feather-pecking or cannibalism without beak treatment are key trait complexes. Stronger shells for longer production cycles without moulting have to be combined with better bones.

3. No single big gene effect can be expected to control the multifactorial problem of feather-pecking. Adjusting the shape of the beak, with a heritability of .10–.25, can contribute to reducing the risk of severe cannibalism.

4. For better skeletal integrity, the assessment of bone quality in pedigree birds housed in enriched cages is done by keel bone palpation or ultrasound measurement of the humerus. Both traits show similar heritabilities in the range of .15–.30 and can be included in a balanced selection approach for performance, quality and welfare traits.

5. The combination of performance testing and genome-wide DNA marker analysis is a promising tool to generate more progress for a balanced performance and behaviour profile.     

Single step genomic evaluation for female fertility in Nordic Red dairy cattle

Joint Nordic (Denmark, Finland, Sweden) genetic evaluation of female fertility is currently based on the multiple trait multilactation animal model (BLUP). Here, single step genomic model (ssGBLUP) was applied for the Nordic Red dairy cattle fertility evaluation. The 11 traits comprised of nonreturn rate and days from first to last insemination in heifers and first three parities, and days from calving to first insemination in the first three parities. Traits had low heritabilities (0.015–0.04), but moderately high genetic correlations between the parities (0.60–0.88). Phenotypic data included 4,226,715 animals with records and pedigree 5,445,392 animals. Unknown parents were assigned into 332 phantom parent groups (PPG). In mixed model equations animals were associated with PPG effects through the pedigree or both the pedigree and genomic information. Genotype information of 46,914 SNPs was available for 33,969 animals in the pedigree. When PPG used pedigree information only, BLUP converged after 2,420 iterations whereas the ssGBLUP evaluation needed over ten thousand iterations. When the PPG effects were solved accounting both the pedigree and the genomic information, the ssGBLUP model converged after 2,406 iterations. Also, with the latter model breeding values by ssGBLUP and BLUP became more consistent and genetic trends followed each other well. Models were validated using forward prediction of the young bulls. Reliabilities and variance inflation of predicted genomic breeding values (values for parent averages in brackets) for the 11 traits ranged 0.22–0.31 (0.10–0.27) and 0.81–0.95 (0.83–1.06), respectively. The ssGBLUP model gave always higher validation reliabilities than BLUP, but largest increases were for the cow fertility traits.     

陕西百年农业科技发展研究

笔者回顾了陕西百年来不同时期农业科技发展的历史背景与社会环境,分析了陕西农业科技发展的动因与本质、范围与对象、社会需求等内在属性特征;总结了陕西农业科技发展的主要成效,即构建了农业科研技术服务体系、培育推广了技术良种方法、发展了农业产业、形成了农业科技发展的政策人才环境、改变了农业传统观念与生产方式;归纳凝练出陕西农业科技发展的经验启示,即农业科技发展是解决农业诸多矛盾的必然要求、实现农业现代化的有效途径、构建农业安全的重要举措,同时农业科技发展必须以国家需要、人民需求为根本出发点。指出陕西农业科技发展中成果转化率不高、体制机制僵化、省级支持不够、基层人员结构不合理等问题,提出通过“科研面向需求”、设立省级基金、开展农技有偿服务、扩大农技部门人事权限、发挥各类市场主体作用来解决问题,推动全省农业科技持续稳步发展。     

喀斯特山区2个鲫鱼群体基于转铁蛋白的遗传多样性研究

为了解喀斯特山区2个不同鲫鱼群体在蛋白质水平的遗传多样性及其遗传差异,运用聚丙烯酰胺凝胶电泳方法对喀斯特山区2个群体鲫鱼的血清转铁蛋白电泳表型及多样性进行研究。结果表明:群体克隆多样性指数表现为草海鲫鱼(0.32)﹥红鲫(0.25,对照)﹥普安鲫鱼(0.13);3个鲫鱼群体的13个克隆由9个不同的等位基因产生,等位基因的频率分别为Tf~a0.144 9、Tf~b0.202 9、Tf~c0.036 2、Tf~d0.058 0、Tf~e0.007 2、Tf~f0.239 1、Tf~g0.014 5、Tf~h0.275 4、Tf~i0.029 0;普安鲫鱼与草海鲫鱼和红鲫无共享的基因型;普安鲫鱼与草海鲫鱼之间的遗传相似性指数较高(0.714 3),遗传距离较小(0.285 7)。总体来看,草海鲫鱼的克隆多样性水平较高,其转铁蛋白多样性程度较普安鲫鱼丰富;2个群体之间存在较近的亲缘关系,未达到遗传距离种的分化标准。     

人工合成小麦紫色胚芽鞘的遗传定位分析

为探明小麦花青素色素沉积的关键位点,以167份重组自交系群体为材料,利用已构建的高密度遗传图谱对来源于硬粒小麦(AABB)和节节麦亚种tauschii(DD)杂交后所得的人工合成小麦SHW-L1中控制紫色胚芽鞘的基因进行遗传定位。同时利用目标性状关联遗传区段对SHW-L1及其亲本进行基因型鉴定。结果表明:目标性状在重组自交系群体中表现为单基因遗传,且被定位于7D染色体,其关联遗传区段在异源六倍化过程中有遗传位点缺失。     

不同来源花生品种的ISSR分析及亲缘关系研究

利用13对ISSR引物对28个栽培种花生品种进行PCR扩增,研究这些品种的DNA多态性及其亲缘关系。结果表明,有7对引物检测到明显的多态性,从28个花生品种中扩增出90条带,其中多态性带达到79条,多态性比率为87.8%,平均每个引物可扩增出12.86条带,11.29条为多态性条带。品种间的遗传相似系数值在0.411~0.800之间,平均为0.620。在UPGMA聚类分析简单匹配系数值为0.57处,可把28个花生品种分成3个品种群。由此表明,这些不同来源的花生品种具有较高的DNA多态性,亲缘关系不同。     

结球甘蓝抽薹性遗传规律和QTL定位分析

以早抽薹‘S-1’与晚抽薹‘G-1’为亲本，构建F1、BC1、BC2和F2群体，采用植物数量性状主基因 + 多基因混合遗传模型分析法对结球甘蓝抽薹性状进行遗传分析，并采用SLAF-BSA方法对抽薹时间进行QTL定位分析。结果显示，结球甘蓝抽薹性状是由2对加性—显性—上位性主基因 + 加性—显性多基因遗传控制；主基因 + 多基因平均遗传率是93.41%。共检测到2个QTL，分别为2号染色体上的2.31 ~ 3.09 Mb和33.57 ~ 34.40 Mb，总长度为1.61 Mb。     

Relationship of Icelandic cattle with Northern and Western European cattle breeds,admixture and population structure

ABSTRACT

Icelandic cattle is believed to have been brought from Norway during the settlement of Iceland around AD 870-930. Previous research on genetic relationships has indicated that Icelandic cattle is most related to northern Nordic indigenous breeds. Using single nucleotide polymorphism genotype data from Icelandic cattle and 29 Northern and Western European cattle breeds, we studied relationships and admixture among these breeds, and assessed population structure in Icelandic cattle. Population structure analysis through principal component analysis, estimation of ancestry, and analysis of patterns of population splitting and mixing revealed that Icelandic cattle are most related to three Finncattle breeds (Eastern, Northern and Western Finncattle), and Swedish Mountain cattle. Icelandic cattle has very low levels of admixture. We observed very limited population structure in Icelandic cattle. The observed structure was due to variable sire contributions. Over 1000 years of almost complete isolation has made Icelandic cattle highly genetically distinct from other cattle breeds.