尽管研究人员只研究了 FKF1蛋白在拟南芥中是如何工作的,但他们认为它在许多其他植物中也是一样的,包括水稻和小麦等作物。
Although researchers have only studied how the FKF1 protein works in the Arabidopsis, they believe that it is the same with many other plants, including crops such as rice and wheat.
昆明虎耳草的介壳虫是一种害虫,危害了拟南芥海桐花。
The scale insect Paracerostegia kunmingensis Tang et Xie is an important pest that harms the deconative plants Pittosporum tobira.
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。
Medicago truncatula is the third plant to have its genome completely sequenced after Arabidopsis and rice.
组织,总蛋白,正常植物拟南芥。
油菜中存在和拟南芥相似的规律。
同时建立了拟南芥幼苗的液体培养体系。
At the same time, we set up the liquid culture system that produced seedlings.
ABA能诱导SEN1基因在拟南芥侧根基部表达。
ABA could induce SEN1 gene in Arabidopsis lateral root primordia.
乙烯受体基因首先在拟南芥中被克隆并证实了其功能。
Genes of ethylene receptor were cloned and characterized firstly in Arabidopsis Thaliana.
我们的结果提示了水稻和拟南芥柱头具有保守功能和新功能。
Our results indicate that the stigmas appear to have conserved and novel molecular functions between rice and Arabidopsis.
探讨拟南芥发育过程中一些调控基因表达的信号是如何传递的。
To investigate the developmental processes of Arabiodopsis and how the signal of regulating development transducts the special gene.
在此,就拟南芥种皮的色泽变异及类黄酮生物合成机理作一介绍。
This review deals with the variation of testa luster as well as the mechanism of flavonoid biosynthesis in Arabidopsis thaliana .
以金鱼草和拟南芥菜为例,介绍近年高等植物花发育的研究进展。
The article reviews the recent progress of flower development in Antirrhinum and Arabidopsis.
论述近年来在拟南芥、水稻等模式植物中赤霉素信号转导的研究进展。
Recent advances in study on gibberellin (GA) signal transduction in model plant, including Arabidopsis and rice, are reviewed.
第三章讲述从全基因组水平去寻找和刻画水稻和拟南芥里的看家基因。
Chapter three talked about the identification and characterization of housekeeping genes in rice and Arabidopsis in the genomic level.
他们将释迦的染色体组跟拟南芥的无核突变体进行比较,后者常用于各种实验中。
They compared its genome to that of a seedless mutant of a plant called Arabidopsis that’s used in a lot of research.
基于模式植物金鱼草和拟南芥的研究结果,发现了控制这三个阶段的分子机制。
Molecular mechanisms controlling these stages have been identified based on the results from far related model systems, Antirrhinum and Arabidopsis.
比较该结果与之前的研究,提出了一种解释拟南芥基因倍增过程更合理的模型。
This paper suggests a new model to explain the process of gene duplication in Arabidopsis.
他们将释迦的染色体组跟拟南芥的无核突变体进行比较,后者常用于各种实验中。
They compared its genome to that of a seedless mutant of a plant called Arabidopsis that's used in a lot of research.
通过对模式植物拟南芥的研究发现,异分支酸合成酶途径是合成SA的主要途径。
By using the model plant Arabidopsis, it was discovered that the isochorismate approach is the major source of SA.
这一章的方法描述了访问并利用拟南芥数据及数据库中找到的基因组资源的方式。
The methods in this chapter describe ways to access and utilize Arabidopsis data and genomic resources found in databases.
他们把这种番荔枝的基因组跟拟南芥的基因突变做了比对,后者经常被用在研究领域。
They compared its genome to that of a seedless mutant of a plant called Arabidopsis that's used in a lot of research.
本实验主要内容是克隆和分析在野生型拟南芥表皮毛细胞中特异表达的新的启动子。
Described here is the cloning and characterization of a new trichome-specific-promoter in Arabidopsis.
对拟南芥表皮毛发育的主要基因调控复合物及其分子调控机制等研究进展进行了综述。
Progress in the main genetic complex for the control of Arabidopsis trichome developing and its molecular modulation mechanism was reviewed.
通过拟南芥研究所获得的信息将有助于人类对控制不同植物复杂生命活动机制的认识。
The information from the Arabidopsis researches will be certainly useful in elucidating the complex life activities of different plant species.
这些植株源自两棵基因几乎相同的拟南芥,但其中一棵含有突变的DDM1甲基化DNA。
The plants were derived from two Arabidopsis parents with essentially identical genomes, but with one having a mutated DDM1 DNA methylation gene.
自拟南芥以来,水稻LBD基因家族的进化经历了亚家族平行进化和重复基因的缺失这个过程。
OsLBD gene families are characterized by subclasses parallel evolution and deletion of duplicated genes from Arabidopsis.
科学家们发现两种瓦尔登布尔氏综合症相关基因和两种在拟南芥中负责感测重力的基因对上了号。
The scientists discovered that two Waardenburg-linked genes matched mustard plant genes for sensing gravity.
然后,对整合的所有蛋白质进行了功能分类和表达分析,并建立了拟南芥花粉表面蛋白质数据库。
Besides, functional classification and expression analysis of all intergrated proteins have also been processed and a database of arabidopsis pollen surface proteins has been constructed.
以前发现的拟南芥中几个位点的隐性突变导致了木质部萎陷的表型,但没有观察到水分运输的缺失。
Recessive mutations in several loci of Arabidopsis were previously shown to lead to a collapsed xylem phenotype but water-transport deficiency was not observed.
EIN3基因首先是从拟南芥的突变体中克隆得到的,作用于CTR下游,位于核内,编码转录因子。
EIN3 was first cloned in Arabidopsis thalina mutant, and it has been suggested that EIN3 acted downstream to CTR located in nuclear and encoded transcription factors.
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