谷子体细胞无性系变异和抗除草剂基因转化研究

谷子是我国北方具有区域重要性的禾谷类粮食作物。谷子的体细胞无性系变异和外源基因转化相对其它作物研究较少。本研究利用谷子生产的育种中应用的多个优良品种为材料，分析了谷子体细无性系变异发生的影响因素、变异性和频率、DNA分子水平变异和育种应用等问题;采用基因枪法和花粉管通道法，进行了谷子抗除草剂基因转化研究。 主要结果包括： 1. 通过几种外植体的愈伤组织诱导分析,找到了小花分化期前后的谷子幼穗是愈伤组织诱导的最好外植体.提出谷子愈伤组织可按生长状态和结构划分为质密型、松软型和松散型三种基本类型的观点。前两种为胚性愈伤组织并可相互转换，松软型愈伤组织生长状态稳定，可塑性好，是继代培养和因基化的首选类型。供试品种中豫谷1号、高39、郑407和矮宁黄为易培养品种，矮88、豫谷2号、系238、冀14号、C445和青丰谷为相对难培养品种。这些结果为谷子组织培养和生物技术操作提供了基础资料。 2. 首次对多个谷子品种较大群体的无性系变异进行了分析。结果表明，以R_2株系为单位的谷子体细胞无性系表现型变异频率平均为13.0%，不同基因型的变幅为4.3～32.9%;变异涉及株高、抽穗期、穗粒重、出谷率、叶鞘色、育性、抗病性、米色、穗型等多个性状，多数变异为株高和抽穗期等数量性状，少数为矮秆等质量性状：变异的性状多数能在R_3稳定并遗传给后代。从谷子体细胞无性系变异中选出了一批农艺性状得到改良的新品系，其中系103已进入省区域试验，并提供给多家育种单位作为亲本应用。 3. 将RAPD分析技术引入谷子体细胞无性系变异研究。豫谷2号无性系的RAPD多态性变化既有亲本带的缺失，也有新带的产生。用RAPD多态性变化的SMC值度量无性系同亲本相比DNA水平变异的大小，表现型发生变异的无性系,其SMC值分别为0.905～1.0;表现型未发生变异的无性系，RAPD多态性也可能发生变化，其SMC值分布为0.953～1.0。 4. 通过Gus基因瞬时表达单位数的比较，优化了JQ－700基因枪转化谷子松型愈伤组织的操作参数：质粒DNA用量3μg/mg钨粉，CaCl_2农度1.5M，亚精胺浓度40mM，样品室高度7cm，粗弹头为微弹载体，每皿愈伤组织用量1～2g，每次轰击钨粉用量50μg，轰击前4小时和轰击后16～20小时，用含蔗糖150g/l的高渗培养基处理。利用该技术体系，以bar基因为目的基因转化豫谷2号愈伤组织。经选择培养和植株再生，首次获得了抗0.1% bialaphos的正常可育植株，经PCR和Southern blot分析，bar基因已整合到转化体的基因组中，为创造抗除草剂的谷子新种质提供了材料和技术基础。 5. 研究了花粉管通道法转化和花粉介导的基因枪转化谷子的可行性。花粉管通道法转化后代中，获得了抗0.1% bialaphos的抗性植株，经X-gluc组织化学检测，抗性植株叶片的Gus反应为阳性。初步说明该植株可能为转化体，在谷子上为花粉管通道法转化的可行性提供了佐证。花粉介导的基因枪转化未获得转化体。 本文对体细胞无性系变异形成的原因和应用、无性系变异的分子生物学分析、以及谷子的外源基因转化方法等问题进行了讨论。

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The tumor suppressor p53 is a master sensor of stress. Two human-specific polymorphisms, p53 codon 72 and MDM2 SNP309, influence the activities of p53. There is a tight association between cold winter temperature and p53 Arg72 and between low UV intensity

A de novo originated gene depresses budding yeast mating pathway and is repressed by the protein encoded by its antisense strand

Recent transcription profiling studies have revealed an unexpectedly large proportion of antisense transcripts in eukaryotic genomes. These antisense genes seem to regulate gene expression by interacting with sense genes. Previous studies have focused on the non-coding antisense genes, but the possible regulatory role of the antisense protein is poorly understood. In this study, we found that a protein encoded by the antisense gene ADF1 acts as a transcription suppressor, regulating the expression of sense gene MDF1 in Saccharomyces cerevisiae. Based on the evolutionary, genetic, cytological and biochemical evidence, we show that the protein-coding sense gene MDF1 most likely originated de novo from a previously non-coding sequence and can significantly suppress the mating efficiency of baker's yeast in rich medium by binding MAT alpha 2 and thus promote vegetative growth. These results shed new light on several important issues, including a new sense-antisense interaction mechanism, the de novo origination of a functional gene, and the regulation of yeast mating pathway.

Structure Elucidation and Theoretical Investigation of Key Steps in the Biogenetic Pathway of Schisanartane Nortriterpenoids by Using DFT Methods

Rubrifloradilactone C (4), a novel bioactive nortriterpenoid, along with four other nortriterpenoids (1-3, 5) were isolated from Schisandra rubriflora. The structure of 4 was determined by extensive NMR spectral analysis, computational evidence by using t

Acute behavioural stress facilitates long-term depression in temporoammonic-CAI pathway

Behavioural stress facilitates long-term depression in Schaffer collaterals-CAI pathway, but it is unknown whether it influences long-term depression in temporoammonic fibres-CAI. Here, we report that low-frequency stimulation induced long-term depression

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Fish-Specific Duplicated dmrt2b Contributes to a Divergent Function through Hedgehog Pathway and Maintains Left-Right Asymmetry Establishment Function

Gene duplication is thought to provide raw material for functional divergence and innovation. Fish-specific dmrt2b has been identified as a duplicated gene of the dmrt2a/terra in fish genomes, but its function has remained unclear. Here we reveal that Dmrt2b knockdown zebrafish embryos display a downward tail curvature and have U-shaped somites. Then, we demonstrate that Dmrt2b contributes to a divergent function in somitogenesis through Hedgehog pathway, because Dmrt2b knockdown reduces target gene expression of Hedgehog signaling, and also impairs slow muscle development and neural tube patterning through Hedgehog signaling. Moreover, the Dmrt2b morphants display defects in heart and visceral organ asymmetry, and, some lateral-plate mesoderm (LPM) markers expressed in left side are randomized. Together, these data indicate that fish-specific duplicated dmrt2b contributes to a divergent function in somitogenesis through Hedgehog pathway and maintains the common function for left-right asymmetry establishment.