Yijie Gui

Identification of wounding and topping responsive small RNAs in tobacco (Nicotiana tabacum

BackgroundMicroRNAs (miRNAs) and short interfering RNAs (siRNAs) are two major classes of small RNAs. They play important regulatory roles in plants and animals by regulating transcription, stability and/or translation of target genes in a sequence-complementary dependent manner. Over 4,000 miRNAs and several classes of siRNAs have been identified in plants, but in tobacco only computational prediction has been performed and no tobacco-specific miRNA has been experimentally identified. Wounding is believed to induce defensive response in tobacco, but the mechanism responsible for this response is yet to be uncovered.ResultsTo get insight into the role of small RNAs in damage-induced responses, we sequenced and analysed small RNA populations in roots and leaves from wounding or topping treated tobacco plants. In addition to confirmation of expression of 27 known miRNA families, we identified 59 novel tobacco-specific miRNA members of 38 families and a large number of loci generating phased 21- or 24-nt small RNAs (including ta-siRNAs). A number of miRNAs and phased small RNAs were found to be responsive to wounding or topping treatment. Targets of small RNAs were further surveyed by degradome sequencing.ConclusionsThe expression changes of miRNAs and phased small RNAs responsive to wounding or topping and identification of defense related targets for these small RNAs suggest that the inducible defense response in tobacco might be controlled by pathways involving small RNAs.

Molecular evolution and selection of a gene encoding two tandem microRNAs in rice

It has been shown that overexpression of MIR156b/c resulted in a bushy phenotype in maize and rice. Our results indicated that the MIR156b/c locus was highly conserved among cereals, but not in dicots and that genome duplication events played an important role in the evolution of the miR156 family. Genetic diversity investigation at the locus indicated that only ∼9% of nucleotide diversity observed in wild rice (O. rufigogon) was maintained in the cultivated rice and the neutral model was rejected (P < 0.05) based on Tajimas D and Fu and Lis D ∗ and F ∗ tests. To our knowledge, this is the first example of miRNA gene to be targeted by both natural and domestication selection in plants.

Insights into the bamboo genome: syntenic relationships to rice and sorghum.

Bamboo occupies an important phylogenetic node in the grass family and plays a significant role in the forest industry. We produced 1.2 Mb of tetraploid moso bamboo (Phyllostachys pubescens E. Mazel ex H. de Leh.) sequences from 13 bacterial artificial chromosome (BAC) clones, and these are the largest genomic sequences available so far from the subfamily Bambusoideae. The content of repetitive elements (36.2%) in bamboo is similar to that in rice. Both rice and sorghum exhibit high genomic synteny with bamboo, which suggests that rice and sorghum may be useful as models for decoding Bambusoideae genomes.

Post-domestication selection in the maize starch pathway.

Modern crops have usually experienced domestication selection and subsequent genetic improvement (post-domestication selection). Chinese waxy maize, which originated from non-glutinous domesticated maize (Zea mays ssp. mays), provides a unique model for investigating the post-domestication selection of maize. In this study, the genetic diversity of six key genes in the starch pathway was investigated in a glutinous population that included 55 Chinese waxy accessions, and a selective bottleneck that resulted in apparent reductions in diversity in Chinese waxy maize was observed. Significant positive selection in waxy (wx) but not amylose extender1 (ae1) was detected in the glutinous population, in complete contrast to the findings in non-glutinous maize, which indicated a shift in the selection target from ae1 to wx during the improvement of Chinese waxy maize. Our results suggest that an agronomic trait can be quickly improved into a target trait with changes in the selection target among genes in a crop pathway.

Identification of NBS-Type Resistance Gene Homologs in Tobacco Genome

Tobacco (Nicotiana tabacum) is an important cash crop and an ideal experimental system for studies on plant–pathogen interaction. The sequenced tobacco genome provides an opportunity for examining resistance gene homologs (RGHs) in the tobacco genome. Thirty nucleotide-binding site-type RGHs were annotated from genomic data, and another 281 putative RGHs were identified via PCR amplification from wild and cultivated tobacco. The newly identified RGHs are similar to other known RGHs, and some were categorized into new groups or branches that are different from known Nicotiana R genes or RGHs. Of the 281RGHs, 146 were identified from a single tobacco genome. We did not find any polymorphism at the RGHs in cultivated accessions, implying that strong domestication selection and/or demographic effects might have caused a sharp reduction in nucleotide diversity. Three positive selection sites were found in several RGH groups, while purifying selection is pervasive in the RGH family. Our results provide a primary RGH pool and several positively selected sites for the further functional validation of resistance genes in tobacco.

Diversity arrays technology (DArT) for studying the genetic polymorphism of flue-cured tobacco (Nicotiana tabacum)

Diversity arrays technology (DArT) is a microarray-based marker system that achieves high throughput by reducing the complexity of the genome. A DArT chip has recently been developed for tobacco. In this study, we genotyped 267 flue-cured cultivars/landraces, including 121 Chinese accessions over five decades from widespread geographic regions in China, 103 from the Americas, and 43 other foreign cultivars, using the newly developed chip. Three hundred and thirty polymorphic DArT makers were selected and used for a phylogenetic analysis, which suggested that the 267 accessions could be classified into two subgroups, which could each be further divided into 2–4 sections. Eight elite cultivars, which account for 83% of the area of Chinese tobacco production, were all found in one subgroup. Two high-quality cultivars, HHDJY and Cuibi1, were grouped together in one section, while six other high-yield cultivars were grouped into another section. The 330 DArT marker clones were sequenced and close to 95% of them are within non-repetitive regions. Finally, the implications of this study for Chinese flue-cured tobacco breeding and production programs were discussed.