机译:基于蚊虫核糖瘤RNA耗尽的基于逆转录/ RNase H的方案促进了病毒性胎儿演化分析,转录组和病原体发现
Colorado State Univ Dept Microbiol Immunol &
Pathol Coll Vet Med &
Biomed Sci Ft Collins CO;
Virginia Polytech Inst &
State Univ Dept Biomed Sci &
Pathobiol 360 W Campus Dr Blacksburg VA;
Univ Autonoma Agr Antonio Narro Dept Parasitol Torreon Coahuila Mexico;
Colorado State Univ Dept Microbiol Immunol &
Pathol Coll Vet Med &
Biomed Sci Ft Collins CO;
Inst Nacl Salud PObl Ctr Reg Invest Salud Publ Tapachula Chiapas Mexico;
Colorado State Univ Dept Microbiol Immunol &
Pathol Coll Vet Med &
Biomed Sci Ft Collins CO;
Colorado State Univ Dept Microbiol Immunol &
Pathol Coll Vet Med &
Biomed Sci Ft Collins CO;
Colorado State Univ Dept Microbiol Immunol &
Pathol Coll Vet Med &
Biomed Sci Ft Collins CO;
Ribosomal depletion; Next-generation sequencing; Virus discover; y Insect-specific viruses; Mosquito-borne viruses; Arbovirus; Transcriptomics;
机译:基于蚊虫核糖瘤RNA耗尽的基于逆转录/ RNase H的方案促进了病毒性胎儿演化分析,转录组和病原体发现
机译:基于16S核糖体RNA基因分析的野生蚊蚊的培养和未培养微生物的研究。
机译:核糖体RNA的耗竭或排除对全病毒微阵列中病毒的检测影响可忽略不计
机译:通过链特异性RNA测序技术对来自polyA RNA选择和核糖体RNA缺失方案的RNA-seq数据进行比较分析
机译:经由eIF4复合物将核糖体40S亚基募集至病毒mRNA的3'非翻译区,促进了不依赖于帽的翻译。
机译:RNA-SEQ具有基于RNase H基的核糖体RNA耗尽专为C. Elgans设计
机译:基于蚊虫核糖瘤RNA耗尽的基于逆转录/ RNase H的方案促进了病毒性胎儿演化分析,转录组和病原体发现