Project description:We present an efficient method to genome-wide discover new and drought stress responsive miRNAs in P. euphratica. High throughput sequencing of P. euphratica leaves found 197 conserved miRNAs between P. euphratica and Populus trichocarpa. Meanwhile, 189 new miRNAs which belonged to 120 families were identified, a large increasing to the number of P. euphratica miRNAs. Target prediction and degradome sequencing verification of 22 new and 21 conserved miRNA targets showed these targets were involved in multiple biological processes, including transcription regulation and response to stimulus. Furthermore, comparison of high-throughput sequencing with miRNA microarray profiling data indicated that 104 miRNA sequences were up-regulated, while 27 were down-regulated under drought stress. This preliminary characterization based on our findings provided a framework for future analysis of miRNA genes and their roles in key traits of poplar as stress resistance plant breeding and environment protection usage.

Project description:We present an efficient method to genome-wide discover new and drought stress responsive miRNAs in P. euphratica. High throughput sequencing of P. euphratica leaves found 197 conserved miRNAs between P. euphratica and Populus trichocarpa. Meanwhile, 189 new miRNAs which belonged to 120 families were identified, a large increasing to the number of P. euphratica miRNAs. Target prediction and degradome sequencing verification of 22 new and 21 conserved miRNA targets showed these targets were involved in multiple biological processes, including transcription regulation and response to stimulus. Furthermore, comparison of high-throughput sequencing with miRNA microarray profiling data indicated that 104 miRNA sequences were up-regulated, while 27 were down-regulated under drought stress. This preliminary characterization based on our findings provided a framework for future analysis of miRNA genes and their roles in key traits of poplar as stress resistance plant breeding and environment protection usage. Examination of sRNA expression in 2 poplar leaf samples in drought and normal growth conditions.

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Project description:More then 10 million raw reads were acquiredIn total, 247 unique mature sequences which contain 149 conserved miRNA and 98 novel miRNAs were identified.

Project description:More then 10 million raw reads were acquired. In total, 238 unique mature sequences which contain 142 conserved miRNA and 96 novel miRNAs were identified.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:MicroRNAs (miRNAs), a group of small non-coding RNAs, have recently become a subject of intense study. They are a class of post-transcriptional, negative regulators playing vital roles in plant development and growth. However, little is known about their regulatory roles in tree’s responses to the stressful environments incurred over its long-term growth. Here, we reported the cloning of small RNAs from abiotic stressed tissues of P. trichocarpa and the identification of 68 putative miRNA sequences that can be classified into 27 families based on sequence homology. Among them, 9 families are novel, raising the number of the known ptc-miRNA families from 33 to 42. Total 346 targets are predicted for the cloned ptc-miRNAs using penalty scores of ≤2.5 for mismatched patterns in the miRNA:mRNA duplexes as the criterion. Six selected targets are experimentally validated. The expression of a majority of the novel miRNAs is altered in response to cold, heat, salt, dehydration, and mechanical stresses. Microarray analysis of known ptc-miRNAs identified 19 additional cold stress responsive ptc-miRNAs that originate from 14 miRNA gene families. Interestingly, we found that miRNAs of the same family respond differentially to the same stress. This suggests that members of a miRNA family may have different functions. These results reveal possible roles for miRNAs in the regulatory networks associated with development and stress response and therefore critical to plant long-term growth; and provide useful information for developing trees with a greater level of stress-resistance. Keywords: microRNA, cold stress, time course

Project description: Not available

Project description: Not available