Reproductive roles predict sexual dimorphism in internal and external morphology of lake whitefish,Coregonus clupeaformis

Abstract – The different reproductive roles of the sexes can predict the direction and magnitude of sexual dimorphism of external and internal morphology. Males should have enlarged structures that enhance the acquisition of mating opportunities, whereas females are predicted to have enlarged organs that are associated with the production of eggs. We tested these predictions in male and female lake whitefish, a species in which both sexes have similar overall body size and shape. After controlling for body size, male lake whitefish had significantly longer jaws and pectoral and pelvic fins, larger hearts, and more muscle than females. Sexual dimorphism in relative muscle mass may be one of the most fundamental morphological differences between males and females. Females had relatively heavier livers than males. Because the liver is important for the breakdown of fats and vitellogenesis, selection should favour an enlarged liver in females for the processing of energy and the production of large numbers of eggs.     

茄子早熟育种研究Ⅱ选择指数与早熟性选择

研究结果表明,由性状果实最大周长,果实体积,门茄显蕾期,单株产量等性状构成的选择指数较好;进一步进行遗传相关分析结果认为,应用选择指数时应注意果实体积这个性状,单株产量是一个重要的辅助性状,门茄显蕾期是一个限制性因子。应用选择指数对品种评价结果认为,早熟性较好的品种有:天津早茄、西安绿茄、二民、七叶茄、白线茄和汉中荷包。     

德南牛全基因组变异解析和功能基因挖掘

[目的]研究德南牛的群体遗传结构和解析影响其重要性状的关键基因。[方法]通过主成分分析、群体进化树分析、群体遗传结构分析等方法,研究德南牛的遗传结构和与其他品种的亲缘关系;同时,利用全基因组SNP数据,计算德南牛与德国黄牛、南阳牛群体固定指数(Fst)和核苷酸多样性比值(π ratio)、复合似然比(CLR)、XP-EHH等多种选择信号指标,以筛选出德南牛基因组上受到选择的信号,鉴定出重要的候选基因。[结果] 德南牛具有欧洲普通牛(0.789)、东亚牛(0.176)、中国瘤牛(0.035)的混合血统。在θπ和CLR方法中鉴定出93个共有基因,使用FST和XP-EHH方法鉴定出17个共有基因。进行富集以及基因功能注释后,发现这些基因可能与生殖性能(TUBB3、NSD2、GRM1、ERBB4)、生长性状(RFX3、FGFR3、GABRB1、PDE4D)、环境适应性(PGR、GRIA4)和免疫系统反应(P2RY12、P2RY13、GPR87、P2RY14、GPR171)有关。[结论]本项研究发现德南牛血统受德国黄牛影响较多,且挖掘了德南牛基因组内可能具有经济意义的性状相关的选择特征,为德南牛种群的选育提高提供理论支撑。     

Sperm competition and the evolution of sperm form and function in mammals

Sperm competition is a powerful selective force that has influenced many reproductive traits in males and females although additional evolutionary explanations may help to understand the diversity of mammalian reproduction. Sperm morphology varies considerably in mammals with extreme examples in several rodent lineages in which a wide range of sizes and complex head morphologies have been identified. Mammalian spermatozoa also differ in function, with swimming velocity and trajectory showing much divergence. Underlying processes mediating function have received little attention so far, but differences in timing and proportion of sperm undergoing capacitation or acrosomal exocytosis may be related to variation in signalling processes. Furthermore, energy required for sperm functions (such as motion, signalling and overall maintenance of cell integrity) can be produced and consumed, following different patterns among species and this could be the result of several selective forces. A more thorough understanding of the diversity in structure and function of sperm cells, and underlying selective forces, may help us develop better methods to assess them taking into account particulars and generalities of sperm form and performance. Such tests could then become more reliable in estimations of the impact of cryopreservation or effect of changes in the environment and their relevance for fertility.     

The role of genetic engineering in livestock production

In this paper we discuss the use of genetic engineering in livestock production. We examine the main two different aspects of genetic engineering: cloning and transgenesis. After commenting what has been expected from both techniques in livestock production in the last 25 years, the practical difficulties for implementing cloning and transgenesis are examined. Apart from technical difficulties, problems derived from the detection of genetically superior animals and evaluation of the clones and the transgenic animals make these techniques less interesting than they appear to be. Most of the observed variability of the economically interesting traits is not genetic, genetic evaluation needs a large number of animals and cloning success will represent a serious loss of genetic variability and the loss of the flexibility needed for markets in constant evolution. There is a risk in transgenic animals of production of new intermediate biochemical products that may be toxic, allergenic or carcinogenic. The benefits produced by transgenic animals hitherto hardly justify this risk. The expectations that genetic engineering produced 25 years ago should be re-examined, considering the risks and the high investment required.     

LDSO: a program to simulate pedigrees and molecular information under various evolutionary forces

Simulations are a major tool to evaluate new statistical methods and optimize experimental designs in the genomic era. However, this can only be achieved when the simulations are close enough to reality, as well as diverse enough to be realistic. For mapping studies, it is thus critical to re-create as much as possible the forces generating linkage (mutation, random drift, changes in population sizes, selection and pedigree structure) and the mechanisms producing trait genetic architecture (additivity, dominance, epistasis). We present here a computer program (ldso) simulating these phenomena. Optional outputs provide statistics on the linkage disequilibrium (LD) structure and the identity by descent between chromosomal segments, facilitating further data analyses. Furthermore, ldso enables the simulation of genomic data in known pedigrees, which sticks as precisely as possible to recent population history and structures of the long-range LD, allowing optimization of fine-mapping strategies.     

Picking a tree: habitat use by the tree agama,Acanthocercus atricollis atricollis,in South Africa

We studied tree agama (Acanthocercus a. atricollis) habitat use in the Magaliesberg mountain range in northern South Africa using sightings of marked individuals, and in a few cases, radio-telemetry. Acanthocercus a. atricollis preferentially selected thorn trees (46%; Acacia karroo), followed by common sugarbush (10%; Protea caffra) and dead trees (9%). The type of tree selected was unrelated to lizard age class or sex. Multivariate analysis failed to show any age class or sex effects for specific tree physical characteristics, but did reveal a preference for trees with greater diameter, canopy cover and incidence of parasitic plants. We suggest that more ‘complex’ trees may enhance crypsis, facilitate escape from predation, or provide a foraging advantage. Acanthocercus a. atricollis selected night-time perches higher than those used during the day, possibly further offsetting predation risk.     

家蚕母种继代蛾区选择方法对种性维持的影响

为了有效保持生产实用家蚕品种的优良性状,在家蚕母种继代繁育中采用5种选择方法选择继代蛾区,探讨种性维持效果。分析8年12代及F1代的成绩表明:所有性状以保持种性为主,采用选留平均数上下1个标准差范围内蛾区的稳定化选择和以茧丝质指标在平均数-0.5~1.0标准差范围内选择,并结合健康性指标选留高值的综合选择,有利于家蚕母种的种性维持。     

根据雏鸡血清酶活性对蛋鸡进行早期选种的研究

本研究测定了147只8、12周龄S220母雏血清碱性磷酸酶(AKP)、谷草转氨酶和乳酸脱氢酶活性,估测其遗传力及其与产蛋性能间的表型相关和遗传相关。结果表明,8周龄血清AKP活性遗传力为0.62,300日龄产蛋量遗传力为0.20,两者间的遗传相关为0.8245。利用8周龄血清AKP活性作为辅助性状对300日龄产蛋量进行间接选择,其间接选择效率为个体选择的1.4519倍,为家系选择的1.4837倍,为合并选择的1.1887倍。因此,8周龄血清AKP活性可作为蛋鸡早期选种血液生化指标之一。     

选择产蛋量七个世代蛋壳及蛋品质的相关反应

以北京白鸡Ⅲ系七世代选择群和基础群为材料,估计选择产蛋量七个世代对蛋壳及蛋品质产生的相关反应.结果表明,经七个世代选择,产蛋量、蛋重、蛋白高度和哈夫单位都有所提高,而蛋壳厚度和蛋比重有一定程度下降.估计蛋壳厚度、蛋白高度和哈夫单位的遗传力分别是0.159 5、0.017 8和0.099 4.产蛋量与蛋白高度、哈夫单位和蛋壳厚度呈负遗传相关.选择产蛋量使蛋壳品质发生负向相关反应.