Expression profiling analysis for genes related to meat quality and carcass traits during postnatal development of backfat in two pig breeds

The competitive equilibrium of fatty acid biosynthesis and oxidation in vivo determines porcine sub-cutaneous fat thickness(SFT) and intramuscular fat(IMF) content.Obese and lean-type pig breeds show obvious differences in adipose deposition;however, the molecular mechanism underlying this phenotypic variation remains unclear.We used pathway-focused oligo microarray studies to examine the expression changes of 140 genes associated with meat quality and carcass traits in backfat at five growth stages(1―5 months) of Landrace(a leaner, Western breed) and Taihu pigs(a fatty, indigenous, Chinese breed).Variance analysis(ANOVA) revealed that differences in the expression of 25 genes in Landrace pigs were significant(FDR adjusted permutation, P<0.05) among 5 growth stages.Gene class test(GCT) indicated that a gene-group was very significant between 2 pig breeds across 5 growth stages(PErmineJ<0.01), which consisted of 23 genes encoding enzymes and regulatory proteins associ-ated with lipid and steroid metabolism.These findings suggest that the distinct differences in fat deposition ability between Landrace and Taihu pigs may closely correlate with the expression changes of these genes.Clustering analysis revealed a very high level of significance(FDR adjusted, P<0.01) for 2 gene expression patterns in Landrace pigs and a high level of significance(FDR adjusted, P<0.05) for 2 gene expression patterns in Taihu pigs.Also, expression patterns of genes were more diversified in Taihu pigs than those in Landrace pigs, which suggests that the regulatory mechanism of micro-effect polygenes in adipocytes may be more complex in Taihu pigs than in Landrace pigs.Based on a dy-namic Bayesian network(DBN) model, gene regulatory networks(GRNs) were reconstructed from time-series data for each pig breed.These two GRNs initially revealed the distinct differences in physiological and biochemical aspects of adipose metabolism between the two pig breeds;from these results, some potential key genes could be identified.Quantitative, real-time RT-PCR(QRT-PCR) was used to verify the microarray data for five modulated genes, and a good correlation between the two measures of expression was observed for both 2 pig breeds at different growth stages(R=0.874±0.071).These results highlight some possible candidate genes for porcine fat characteristics and provide some data on which to base further study of the molecular basis of adipose metabolism.     

Genetic and genomic analyses for economically important traits and their applications in molecular breeding of cultured fish

The traits of cultured fish must continually be genetically improved to supply high-quality animal protein for human consumption.Economically important fish traits are controlled by multiple gene quantitative trait loci(QTL),most of which have minor effects,but a few genes may have major effects useful for molecular breeding.In this review,we chose relevant studies on some of the most intensively cultured fish and concisely summarize progress on identifying and verifying QTLs for such traits as growth,disease and stress resistance and sex in recent decades.The potential applications of these major-effect genes and their associated markers in marker-assisted selection and molecular breeding,as well as future research directions are also discussed.These genetic and genomic analyses will be valuable for elucidating the mechanisms modulating economically important traits and to establish more effective molecular breeding techniques in fish.     

Identification of genes contributing to quantitative disease resistance in rice

Despite the importance of quantitative disease resistance during a plant’s life, little is known about the molecular basis of this type of host-pathogen interaction, because most of the genes underlying resistance quantitative trait loci (QTLs) are unknown. To identify genes contributing to resistance QTLs in rice, we analyzed the colocalization of a set of characterized rice defense-responsive genes and resistance QTLs against different pathogens. We also examined the expression patterns of these genes in response to pathogen infection in the parents of the mapping populations, based on the strategy of validation and functional analysis of the QTLs. The results suggest that defense-responsive genes are important resources of resistance QTLs in rice. OsWRKY45-1 is the gene contributing to a major resistance QTL.NRR,OsGH3-1,and OsGLP members on chromosome 8 contribute alone or collectively to different minor resistance QTLs. These genes function in a basal resistance pathway or in major disease resistance gene-mediated race-specific pathways.     

Quantitative Trait Loci Mapping of Flag-leaf Ligule Length in Rice and Alignment with ZmLG1 Gene

A doubled haploid （DH） population, which consists of 120 lines derived from anther culture of a typical indica and japonica hybrid‘CJ06＇/‘TNI＇, was used in this study. Ligule lengths of flag leaf were investigated for quantitative trait loci （QTL） mapping using the DH population. Five QTLs （qLL-2, qLL.4, qLL-6, qLL-IO and qLL-12） controlling the ligule length （LL） were detected on chromosomes 2, 4, 6, 10 and 12, with the variances explained 11.4%, 13.6%, 27.8%, 22.1% and 11.0%, respectively. Using four known genes of ZmGL1, ZmGL2, ZmGL3 and ZmGL4 in maize from the MaizeGDB, their homologs in rice were aligned and integrated into the existing simple sequence repeats linkage map by in silico mapping. A ZmLG1 homolog gene, OsLG1 encoding a squamosa promoter binding protein, was located between the markers RM255 and RM280, which is just identical to the interval of qLL.4 on the long arm of chromosome 4. The results are beneficial to dissection of the ligule molecular mechanism and the study of cereal evolution.     

中华鳖7种组织SOX基因表达的RT-PCR分析

In this paper, RT PCR analysis on SOX gene of seven tissues from the Chinese soft shelled turtle (Pelodiscus sinensis) was studied, and SOX gene fragments of expression from the testicle, brain, heart, kidney and spleen were cloned using RT PCR products.The results show that SOX genes has specific expression in the testicle, brain, spleen, cardiac muscle and kidney and isn't expression in muscle, liver and ovary of femel.The results of sequence reveal that the SOX genes of expression in the testicle are TSSOX1、TSSOX4 TSSOX5 and TSSOX9, and those are TSSOX2 and TSSOX4 in the brain, and this is TSSOX4 in the spleen and heart tissue, and those are TSSOX2 and TSSOX3 in the kidney tissue.This suggests that the SOX gene act important role not only on the sex determination, but also on the development of neural system, immunocyte system and the differentiation of male germ cell.     

猪背最长肌中肌肉生长和脂肪沉积相关基因的差异表达和主成分分析

骨骼肌细胞和脂肪细胞在分化生长速度上相对竞争的平衡点是猪肉质和胴体性状的决定因素.利用Oligo功能分类芯片检测了瘦肉型的长白猪和脂肪型的太湖猪在初生、1、2、3、4和5月龄间背最长肌中肌肉生长和脂肪沉积相关基因的动态表达变化.差异表达分析结果显示,在初生至5月龄的品种间分别有15、16、11、13、18和20个基因的表达差异倍数大于2倍.品种内的方差分析表明,长白猪分别有18和22个基因,太湖猪分别有3和7个基因在月龄间的表达差异达极显著(Ｐ<0.01)和显著水平(Ｐ<0.05).主成分分析结果显示,先降后升是两品种内最具代表性的基因表达模式,且长白猪和太湖猪分别有7和6个基因的表达模式明显偏离其他基因,提示其可能受到了重要的调控. 此外,5个差异表达基因的荧光定量RT-PCR验证结果均与芯片结果呈正相关趋势.以上结果筛选出了对于猪肉质和胴体性状可能具有重要影响,值得深入研究的一些候选基因,为深入研究生长发育过程中参与肌纤维生长和脂肪酸合成关键基因的表达变化规律和互作调控机制提供了基础数据.     

植物落花落果的分子机理研究进展

落花落果是花、果实、种子从母体脱落的一种普遍存在的自然现象。发生器官脱落的区域为离区(abscission zone,AZ)。离区分化形成离层,离层与脱落息息相关。离层的发育和功能行使是多酶、多激素、多基因参与调控的复杂而精确的过程。落花落果不仅是作物栽培和育种中的典型农艺性状,而且是植物器官脱落的主要形式之一。减少植物落花落果或控制某些植物适度落花落果,提高作物和果蔬类植物的产量和品质,是人类在作物驯化上努力的目标。该文基于前人对植物器官脱落的生理生化和分子生物学机制的研究,主要从植物落花落果的细胞学基础、生理生化机制、遗传学规律、分子生物学和相关基因定位、转录组分析方面阐述落花落果分子机理,重点从落花落果的分子生物学和相关基因定位两个方面进行剖析落花落果的作用机制,以便为作物遗传育种研究提供理论指导。     

种子休眠与萌发的分子生物学的研究进展

休眠与萌发是植物种子对环境变化的适应特征,受许多基因调控和环境因子的影响。利用数量遗传学方法（如QTL 分析）和突变等手段已对休眠和萌发特性进行了深入的遗传学研究。近些年来,随着分子生物学的快速发展,种子休眠和萌发研究已经深入到分子水平。分子生物学技术的运用,特别是基因表达、基因组测序和以双向凝胶电泳及质谱分析为技术基础的蛋白质组学分析,已成为研究种子休眠和萌发的新工具和新方向。本文主要就利用分子生物学方法研究种子休眠与萌发的进展给予简要综述。