Spinach-based RNA mimicking GFP in plant cells

Functional & Integrative Genomics - Spinach RNA-mimicking GFP (S-RMG) has been successfully used to monitor cellular RNAs including microRNAs in bacterium, yeast, and human cells. However,...     

The linkage maps of Dendrobium species based on RAPD and SRAP markers

Dendrobium plants are used commonly as tonic herbs and health food in many Asian countries,especially in China.Here we report the genetic map construction of two Dendrobium species with a double pseudo-testcross strategy using random amplified polymorphic DNA (RAPD) and sequence-related amplified polymorphism (SRAP) markers.A F1 mapping population of 90 individuals was developed from a cross between D.officinale and D.hercoglossum.A total of 307 markers,including 209 RAPD and 98 SRAP,were identified and used for genetic linkage group (LG) analysis.The D.officinale linkage map consisted of 11 major linkage groups and 3 doublets,which covered 629.4 cM by a total of 62 markers with an average locus distance of 11.2 cM between two adjacent markers.The D.hercoglossum linkage map contained 112 markers mapped on 15 major and 4 minor linkage groups,spanning a total length of 1,304.6 cM with an average distance of 11.6 cM between two adjacent markers.The maps constructed in this study covered 92.7% and 82.7% of the D.hercoglossum and D.officinale genomes respectively,providing an important basis for the mapping of horticultural and medicinal traits and for the application of marker-assisted selection in Dendrobium breeding program.     

Flower-specific expression of <Emphasis Type="Italic">Arabidopsis</Emphasis><Emphasis Type="Italic">PCS1</Emphasis> driven by <Emphasis Type="Italic">AGAMOUS</Emphasis> second intron in tobacco decreases the fertility of transgenic plants

The PROMOTION OF CELL SURVIVAL 1 (PCS1) gene, encoding an aspartic protease, has an important role in determining the fate of cells in embryonic development and reproduction processes in Arabidopsis. To explore the potential function of the PCS1 gene in generating reproductive sterility, we placed the PCS1 gene under the control of an 1,869-bp nucleotide sequence from the 3′ end of the second intron (AG-I) of Arabidopsis AGAMOUS and CaMV 35S (–60) minimal promoter [AG-I-35S (–60)::PCS1], and introduced it into tobacco. RT–PCR results demonstrated that the PCS1 gene driven by AG-I-35S (–60) chimeric promoter was expressed only in anthers and carpels in the reproductive tissues of transgenic tobacco. Compared to wild-type plants, all AG-I-35S (–60) and AG-I-35S (–60)::PCS1 transgenic lines showed a normal phenotype throughout the vegetative growth phase. However, during the reproductive stage, most AG-I-35S (–60)::PCS1 transgenic plant anthers displayed delayed dehiscence, failed dehiscence, petalody and hypoplasia, and the pollen grains had different shapes and sizes with a distorted, shrunken, or collapsed morphology. Moreover, three transgenic lines, PCS1-1, PCS1-3 and PCS1-4, showed higher sterility than wild-type and AG-I-35S (–60) transgenic plants, respectively. These results showed that the construct of AG-I-35S (–60)::PCS1 was partially effective at preventing seed set and provided a novel sterility strategy.     

Multigene editing via CRISPR/Cas9 guided by a single‐sgRNA seed in Arabidopsis

We report that a solo single-guide RNA(sg RNA) seed is capable of guiding Clustered Regularly Interspaced Short Palindromic Repeats(CRISPR)/CRISPRàassociated 9(CRISRP/Cas_9) to simultaneously edit multiple genes At RPL_(10)A, At RPL_(10)B and At RPL_(10)C in Arabidopsis. Our results also demonstrate that it is possible to use CRISPR/Cas_9 technology to create At RPL_(10) triple mutants which otherwise cannot be generated by conventional genetic crossing. Compared to other conventional multiplex CRISPR/Cas systems, a single sg RNA seed has the advantage of reducing off-target gene-editing. Such a gene editing system might be also applicable to modify other homologous genes, or even less-homologous sequences for multiple gene-editing in plants and other organisms.     

Comparative WGBS identifies genes that influence non-ripe phenotype in tomato epimutant Colourless non-ripening

Whole-genome bisulfite sequencing(WGBS)allows single-base resolution and genome-wide profiling of DNA methylation in plants and animals.This technology provides a powerful tool to identify genes that are potentially controlled by dynamic changes of DNA methylation and demethylation.However,naturally occurring epimutants are rare and genes under epigenetic regulation as well as their biological relevances are often difficult to define.In tomato,fruit development and ripening are a complex process that involves epigenetic control.We have taken the advantage of the tomato epimutant Colourless non-ripening(Cnr)and performed comparative mining of the WGBS datasets for the Cnr and Sl CMT3-silenced Cnr fruits.We compared DNA methylation profiles for the promoter sequences of approximately 5,000 bp immediately upstream of the coding region of a list of20 genes.Differentially methylated regions were found for some of these genes.Virus-induced gene silencing(VIGS)of differentially methylated gene Sl DET1 or Sl PDS resulted in unusual brown pigmentation in Cnr fruits.These results suggest that comparative WGBS coupled with VIGS can be used to identify genes that may contribute to the colourless unripe phenotype of fruit in the Cnr epimutant.     

应用单链构象多态性－聚合酶链反应研究我国大麦黄花叶病毒株系的分化

根据致病性差异,我国大麦黄花叶病毒（ＢａＹＭＶ）存在若干不同株系,血清学和核酸杂交等技术不能区分这些株系。但还由于致病性不同,各株系的核酸序列间必定存在差异。最近建立的单链构象多态性。聚合酶链反应（ＳＳＣＰ－ＰＣＲ）技术能灵敏而有效地诊断和区分核酸序列间的差异,从而进一步证实我国ＢａＹＭＶ不同株系的分化。     

The linkage maps of Dendrobium species based on RAPD and SRAP markers

Dendrobium plants are used commonly as tonic herbs and health food in many Asian countries,especially in China.Here we report the genetic map construction of two Dendrobium species with a double pseudo-testcross strategy using random amplified polymorphic DNA(RAPD) and sequence-related amplified polymorphism(SRAP) markers.A F1 mapping population of 90 individuals was developed from a cross between D.officinale and D.hercoglossum.A total of 307 markers,including 209 RAPD and 98 SRAP,were identified and used ...     

Comparative WGBS identifies genes that influence non-ripe phenotype in tomato epimutant <Emphasis Type="Italic">Colourless non-ripening</Emphasis>

Whole-genome bisulfite sequencing (WGBS) allows single-base resolution and genome-wide profiling of DNA methylation in plants and animals. This technology provides a powerful tool to identify genes that are potentially controlled by dynamic changes of DNA methylation and demethylation. However, naturally occurring epimutants are rare and genes under epigenetic regulation as well as their biological relevances are often difficult to define. In tomato, fruit development and ripening are a complex process that involves epigenetic control. We have taken the advantage of the tomato epimutant Colourless non-ripening (Cnr) and performed comparative mining of the WGBS datasets for the Cnr and SlCMT3-silenced Cnr fruits. We compared DNA methylation profiles for the promoter sequences of approximately 5,000 bp immediately upstream of the coding region of a list of 20 genes. Differentially methylated regions were found for some of these genes. Virus-induced gene silencing (VIGS) of differentially methylated gene SlDET1 or SlPDS resulted in unusual brown pigmentation in Cnr fruits. These results suggest that comparative WGBS coupled with VIGS can be used to identify genes that may contribute to the colourless unripe phenotype of fruit in the Cnr epimutant.