Most of the rice genome was anchored genetically by overgo hybridization, DNA gel blot .
水稻基因序列的特征分析解水稻基因组的组成与结构规律具有重要意义。
This result indicated that leguminous nodulin homologous genes existed extensively in rice genome.
这表明在水稻基因组中广泛存在豆科植物结瘤素基因的同源基因。
Previous studies showed that there are 48 predicted ubiquitin-conjugating enzyme genes in rice genome.
已有的研究表明,水稻基因组数据库中存在48个预测的泛素结合酶基因。
The main task of rice genome research has been shifted to functional genome study since rice sequencing was completed.
随着测序工作的完成,水稻基因组研究的重点随即转移到功能基因组研究上。
Featural analysis of rice gene is valuable for understanding the composition and structure features of the rice genome.
水稻基因序列的特征分析解水稻基因组的组成与结构规律具有重要意义。
A study of the rice genome suggests that the crop was domesticated only once, rather than at multiple times in different places.
对水稻基因组的研究表明,这种作物是在一个地区一次驯养完成的,而不是在多个地区经过多次驯养才完成的。
This challenge will grow significantly as international efforts aimed at sequencing the entire rice genome come into full swing.
这个挑战将随着旨在测序整个稻米基因组的国际努力的全力进行而显著地增长。
Another rice researcher, Jan Leach at Colorado State University, says scientists can find valuable qualities hidden in the rice genome.
另一位来自科罗拉多州立大学的水稻研究人员简·利奇(JanLeach)表示,科学家们可以在水稻基因组中发现一些极具价值的隐性性状。
Another rice researcher, Jan Leach at Colorado State University, says scientists can find valuable qualities hidden in the rice genome.
另一位水稻研究者,科罗拉多州立大学的JanLeach说,科学家能够在水稻基因组中发现非常宝贵的质量品质。
The GWM procedure is applied to donor and acceptor recognition of human and rice genome, and compared with the commonly applied methods.
将该方法应用于人类和水稻基因组的供子和受子识别,并与现行的主要方法作了比较。
A set of RFLP landmarks generated by the Japanese Rice Genome Program (RGP) was applied to allow comparison between our map and the RGP map.
由于采用了一套日本水稻基因组计划(rgp)的RFLP标记,使本图谱能与RGP图谱进行比较。
Our results indicated that there were at least 49 predicted rice cyclin genes in the rice genome, and they were distributed on 12 chromosomes.
我们的 结果表明,有至少49个预测的水稻细胞周期蛋白基因在水稻基因组,它们被分布在 12条染色体。
We identified several types of cyclin genes in the rice genome and characterized them by phylogenetic, tandem and segmental duplications analyses.
我们确定了几个类型在水稻基因组的细胞周期蛋白基因和特征的系统发育,串联重复片段的分析。
They are both highly repetitive sequences and widely distributed in the rice genome, as shown by hybridization with specific probes of SLTR1 and SLTR2.
利用SLTR1和SLTR 2与水稻DNA杂交,结果显示两者广泛分布于水稻基因组中,是一类高拷贝重复序列。
By database searching, additional four SRWD1-like genes (SRWD2–SRWD5) were found in rice genome, and these five SRWD genes formed a novel WD40 subfamily.
通过搜索数据库,我们在水稻基因组中发现了另外4个类SRWD1基因(SRWD2-SRWD5),这5个SRWD 基因组成了一个新型WD40亚家族。
With the completed sequencing of rice genome, a great deal of sequence data has been accumulated in gene bank, and the functions of lots of genes need to be determined.
水稻功能基因组学的研究迫在眉睫,破译天书,分离具有自主知识产权的基因,成为世界各国竞争的焦点。
As part of international efforts to completely sequence the entire rice genome, national Center for Gene Research has finished the sequence and analysis of rice chromosome 4.
中国科学院国家基因研究中心率先完成了国际水稻基因组计划的第4号染色体全长序列的精确测序,该成果已在英国的《自然》杂志发表。
Recent completion of rice genome sequencing has revealed that more than 40% of its genome consists of repetitive sequences, and most of them are related to inactive transposable elements.
水稻基因组测序完成后发现超过40%的基因组序列中含有重复序列,其中大多数重复序列与不活动的的转座子元件有关。
Medicago truncatula is the third plant to have its genome completely sequenced after Arabidopsis and rice.
截叶苜蓿是继拟南芥和水稻之后第三种完全对其基因组进行测序的植物。
But the gene is also present in the genome of unrelated species such as rice and barley, so it probably exists in most flowering plants.
但是在无亲缘物种,如稻子和大麦的基因组中也存在这种基因。因此它有可能存在于大多数的显花植物中。
The exploration of the molecular mechanism for cytoplasmic male sterility in plant enhanced the study on mitochondrial genome in rice.
对植物细胞质雄性不育分子机理的探索促进了水稻线粒体基因组的研究。
Last July, Max-Planck-Institute researchers were the first to map the genome of Rice Cluster I species.
去年七月份,马斯普朗克研究所的研究者们首先描绘出水稻族I的基因图谱。
With the completeness of the two model plants, Arabidopsis and rice, genomic sequencing project, the emphasis of plant genomic research has focused on functional genome research.
随着拟南芥、水稻等模式植物基因组测序的完成,植物基因组学的研究重点已经转变为功能基因组学研究。
The features of T-DNA tagging and the progress of its application in the research of rice functional genome were reviewed in the paper.
综述了T-DNA标签法的特点及其在水稻功能基因组研究中应用的进展。
Rice (Oryza sativa L. ), which has a small genome in cereal plants, has several advantages as a model species for studying molecular biology and developmental biology.
水稻是基因组最小的禾谷类作物,也是植物发育生物学和分子生物学研究较理想的模式植物。
Because of its small genome size, relatively well developed genetic maps and easily to be transferred, rice is a model plant for functional genomics research.
水稻在禾谷类作物中基因组最小,且易于体外操作与分化等优点,因此被确定为禾谷类作物功能基因组学研究的模式植物。
Meanwhile, the mapping population of the genome project of rice and other population are compared and discussed.
本文还对已有基因组计划定位群体及其它群体进行了比较和讨论。
Autotetroploid rice has double genome compared with diploid rice.
同源四倍体水稻是二倍体水稻染色体加倍形成的。
Rice is one of the most important plant of the world which whole genome sequence has been completed.
水稻是世界上最重要的粮食作物之一,是第一个完成全基因组序列框架图测序的作物。
Rice is one of the most important plant of the world which whole genome sequence has been completed.
水稻是世界上最重要的粮食作物之一,是第一个完成全基因组序列框架图测序的作物。
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