Identification of Increased Grain Length 1 (IGL1), a novel gene encoded by a major QTL for modulating grain length in rice.

A novel quantitative trait locus qIGL1, which performed a positive function in regulating grain length in rice, was cloned by the map-based cloning approach; further studies revealed that it corresponded to LOC_Os03g30530, and the IGL1 appeared to contribute to lengthening and widening of the cells on the surface of grain hulls. Grain length is a prominent determinant for grain weight and appearance quality of rice. In this study, we conducted quantitative trait locus mapping to determine a genomic interval responsible for a long-grain phenotype observed in a japonica cultivar HD385.

RLL5, an F-box-containing protein, involved in preventing transgene silencing and in maintaining global DNA methylation in Arabidopsis.

RNA-directed DNA methylation (RdDM) and ROS1-dependent active DNA demethylation pathways are antagonistic processes that dynamically regulate site-specific methylation. In this study, we obtained a mutant with reduced luciferase (LUC) luminescence by genetic screening, which was named rll5-1 (for reduced LUC luminescence 5-1). The rll5-1 mutant showed narrower, frizzled and curly leaves, and the low-LUC-luminescence phenotype in the rll5-1 mutant can be largely restored by DNA methylation inhibitor 5-Aza-2'-deoxycytidine.

Roles of MEM1 in safeguarding Arabidopsis genome against DNA damage, inhibiting ATM/SOG1-mediated DNA damage response, and antagonizing global DNA hypermethylation.

Arabidopsis methylation elevated mutant 1 (mem1) mutants have elevated levels of global DNA methylation. In this study, such mutant alleles showed increased sensitivity to methyl methanesulfonate (MMS). In mem1 mutants, an assortment of genes engaged in DNA damage response (DDR), especially DNA-repair-associated genes, were largely upregulated without MMS treatment, suggestive of activation of the DDR pathway in them.

Roles of IDM3 and SDJ1/2/3 in Establishment and/or Maintenance of DNA Methylation in Arabidopsis.

Previous studies had demonstrated that in Arabidopsis, IDM3 is involved in ROS1-mediated DNA demethylation pathway, and SUVH-SDJ complex functions as a DNA methylation reader complex for enhancing gene transcription, which presumably recruits ROS1 to the promoters of target genes for DNA demethylation. Here, our analyses, however, showed that the IDM3 and SDJ1/2/3, the components of the SUVH-SDJ complex, are implicated in establishing and/or maintaining DNA methylation as well through DDR (DRD1-DMS3-RDM1) complex. idm3-3 or sdj1/2/3 mutations led to genome-wide DNA hypomethylation, and both mutants shared a large number of common hypo-DMRs (Differentially Methylated Regions) with rdm1-4 and dms3-4, suggesting that IDM3 and SDJ1/2/3 help establish and/or maintain DNA methylation, mediated by RdDM pathway, at a subset of genomic regions largely through DDR complex.

Increased Drought Resistance 1 Mutation Increases Drought Tolerance of Upland Rice by Altering Physiological and Morphological Traits and Limiting ROS Levels.

To discover new mutants conferring enhanced tolerance to drought stress, we screened a mutagenized upland rice (Oryza sativa) population (cv. IAPAR9) and identified a mutant, named idr1-1 (increased drought resistance 1-1), with obviously increased drought tolerance under upland field conditions. The idr1-1 mutant possessed a significantly enhanced ability to tolerate high-drought stresses.

Involvement of MEM1 in DNA demethylation in Arabidopsis.

MEM1 participates in ROS1-mediated DNA demethylation pathway, and acts functionally as ROS3 to counteract the effects of RdDM pathway.mem1mutation leads to large numbers of hyper-DMRs inArabidopsisgenome. In higher plants, DNA methylation performs important functions in silencing transcribed genes and transposable elements (TEs).

Characterization and fine mapping of Arabidopsis RLL3, a locus required for DNA demethylation pathway.

DNA methylation pattern is found to be established by the combined actions of DNA methylation and demethylation. Compared to the DNA methylation pathway, DNA demethylation pathway, however, remains largely unknown. To better understand the DNA demethylation pathway, we performed genetic screening for Arabidopsis mutants with increased genomic DNA methylation levels through a 2 × 35S:LUC (LUC, luciferase) reporter system.

Roles of CRWN-family proteins in protecting genomic DNA against oxidative damage.

CROWDED NUCLEI (CRWN) family in Arabidopsis consists of four members, CRWN1 to CRWN4. It has been previously reported that the CRWN proteins are involved in the control of nuclear morphology and degradation of ABI5. In this study, however, we discover that CRWN-family proteins are not only involved in attenuating responsiveness to abscisic acid (ABA), but also implicated in inhibiting reactive oxygen species (ROS) production and DNA damage induced by genotoxic agent methyl methanesulfonate (MMS).