1.
Cloning of Reverse Transcriptase of Retrotransposons and Stress-Tolerant Related Gene in Wheat;
小麦反转录转座子反转录酶和抗逆相关基因的克隆
2.
Isolation and Characterization of LTR Retrotransposon Sequences from Strawberry Genome;
草莓基因组中LTR反转录转座子的分离和鉴定
3.
Study on PCR Reaction System of Inter-retrotransposon Amplified Polymorphism(IRAP) in Lentinula edodes
香菇反转录转座子间扩增多态性(IRAP)PCR反应体系的研究
4.
The Roles of the Copia-retrotransposons in Wheat on the Biological Effect of the Low-energy N~+ Beam Implantation;
小麦反转录转座子在低能N~+离子束注入生物效应机制中的作用
5.
Cloning of a Retrotransposon Gene Fragment and Establishment of the Inter-retrotransposon Amplified Polymorphism(IRAP) Molecular Marker System of Eggplant;
茄子反转录转座子基因片段的克隆及IRAP分子标记体系的建立
6.
Characterization of Retrotransposon Elements and Development of Related Molecular Markers in Citrus;
柑橘反转录转座子基因的特征分析及其相关分子标记的开发
7.
Study on the Influence of Low Energy Ion Implantation on the Polymorphism of Tobacco Retrotransposon Tnt1
低能离子注入对烟草反转录转座子Tnt1多态性的影响
8.
Effect of ~(60)Coγ Irradiation on the Expression Activity of Retrotransposon WIS2-1A
~(60)Coγ辐照对小麦反转录转座子WIS2-1A表达活性的影响
9.
Many of the plant retrotransposons are transcriptionally activated by various biotic and abiotic stress factors.
在一些生物的和非生物的逆境条件下 ,反转录转座子的转录可以被激活。
10.
Isolation and Characterization of NPR1 Homolog Gene and Gene Fragment of Retrotransposons of Wheat and Its Wild Relatives;
小麦及其近缘植物NPR1类似基因和反转录转座子基因片段的分离和特性分析
11.
Characterization of Tyl-copia Retrotransposons from Apple Genome and Establishment of S-SAP Molecular Markers;
苹果基因组中Tyl-copia反转录转座子的分离鉴定及S-SAP标记体系的建立
12.
reverse transcriptase
【生化】逆转录酶, 反转录酶
13.
cyclical transcription and reverse transcription
循环(式)转录(和)逆转录(反应)
14.
Characterization of Active LTR Retrotransposons in Nosema Bombycis;
家蚕微孢子虫LTR反转座子的活性研究
15.
basal transcription
基础转录,基态转录
16.
Study on functional LI retrotransposon in type 2 diabetes susceptibility genes;
2型糖尿病易感基因——功能性L1逆转录转座子的研究
17.
NO Stress Induce Variation of DNA Methylation and Transcriptional Activation of Mobile Elements and Genes in Rice (Oryza Sativa L.);
NO胁迫诱导水稻DNA甲基化变异及转座子和基因的转录激活
18.
After your reversed domain name, the dots are intended to represent subdirectories.
反转了域名后,可将点号想象成子目录。