Rentao Song scite author profile

Rice, one of the world's most important food plants, has important syntenic relationships with the other cereal species and is a model plant for the grasses. Here we present a map-based, finished quality sequence that covers 95% of the 389 Mb genome, including virtually all of the euchromatin and two complete centromeres. A total of 37,544 nontransposable-element-related protein-coding genes were identified, of which 71% had a putative homologue in Arabidopsis. In a reciprocal analysis, 90% of the Arabidopsis proteins had a putative homologue in the predicted rice proteome. Twenty-nine per cent of the 37,544 predicted genes appear in clustered gene families. The number and classes of transposable elements found in the rice genome are consistent with the expansion of syntenic regions in the maize and sorghum genomes. We find evidence for widespread and recurrent gene transfer from the organelles to the nuclear chromosomes. The map-based sequence has proven useful for the identification of genes underlying agronomic traits. The additional single-nucleotide polymorphisms and simple sequence repeats identified in our study should accelerate improvements in rice production.

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CARPEL FACTORY, a Dicer Homolog, and HEN1, a Novel Protein, Act in microRNA Metabolism in Arabidopsis thaliana

Park¹,

Li²,

et al. 2002

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miRNAs are present in both plant and animal kingdoms. An evolutionarily conserved mechanism involving a protein, known as Dicer in animals and CAF in Arabidopsis, operates in miRNA metabolism. HEN1 is a new player in miRNA accumulation in Arabidopsis, and HEN1 homologs in metazoans may have a similar function. The developmental defects associated with caf-1 and hen1-1 mutations and the patterns of miRNA accumulation suggest that miRNAs play fundamental roles in plant development.

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Gene expression of a gene family in maize based on noncollinear haplotypes

Song

Messing

2003

Proc. Natl. Acad. Sci. U.S.A.

244

215

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Genomic regions of nearly every species diverged into different haplotypes, mostly based on point mutations, small deletions, and insertions that do not affect the collinearity of genes within a species. However, the same genomic interval containing the z1C gene cluster of two inbred lines of Zea mays significantly lost their gene collinearity and also differed in the regulation of each remaining gene set. Furthermore, when inbreds were reciprocally crossed, hybrids exhibited an unexpected shift of expression patterns so that ''overdominance'' instead of ''dominance complementation'' of allelic and nonallelic gene expression occurred. The same interval also differed in length (360 vs. 263 kb). Segmental rearrangements led to sequence changes, which were further enhanced by the insertion of different transposable elements. Changes in gene order affected not only z1C genes but also three unrelated genes. However, the orthologous interval between two subspecies of rice (not rice cultivars) was conserved in length and gene order, whereas changes between two maize inbreds were as drastic as changes between maize and sorghum. Given that chromosomes could conceivably consist of intervals of haplotypes that are highly diverged, one could envision endless breeding opportunities because of their linear arrangement along a chromosome and their expression potential in hybrid combinations (''binary'' systems). The implication of such a hypothesis for heterosis is discussed. z1C zein gene cluster ͉ heterosis ͉ genomic organization ͉ overdominance ͉ transposition C orn or Zea mays is one of the most important crops in the world.Although wheat and rice surpass it as a staple and in acreage, no crop rivals its total grain yield and the diversity of its uses as processed food, for animal feed and sweetener in soft drinks, and its industrial applications such as fuel and adhesives. The preference of corn over other grains or legumes for such applications is because of the unusual properties of hybrids. When distant inbred lines are crossed, the resulting hybrids exhibit an unusual vigor (heterosis) that results in higher yields per acre than the parental lines would produce themselves (1). The premium exercised for the breeding of steadily improved maize inbreds customized for different geographic areas has generated a huge enterprise worldwide, particularly in the United States, yet the underlying molecular mechanism for hybrid vigor is not well understood. To decide between two models explaining ''dominance complementation'' or ''overdominance'' of heterozygotes, it will therefore be necessary to compare not only the genomic architecture of genes within an interval of several hundred kilobases but also the expression of these genes of two parental inbreds and their reciprocal hybrids.The fact that some gene families are highly clustered within such lengthy intervals rather than spread over the entire genome is the springboard for our study. One such interval encodes the 22-kDa ␣-zein storage proteins. These proteins accumulate d...

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Genome-Wide Characterization ofcis-Acting DNA Targets Reveals the Transcriptional Regulatory Framework ofOpaque2in Maize

Qiao

et al. 2015

139

156

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Opaque2 (O2) is a transcription factor that plays important roles during maize endosperm development. Mutation of the O2 gene improves the nutritional value of maize seeds but also confers pleiotropic effects that result in reduced agronomic quality. To reveal the transcriptional regulatory framework of O2, we studied the transcriptome of o2 mutants using RNA sequencing (RNA-Seq) and determined O2 DNA binding targets using chromatin immunoprecipitation coupled to highthroughput sequencing (ChIP-Seq). The RNA-Seq analysis revealed 1605 differentially expressed genes (DEGs) and 383 differentially expressed long, noncoding RNAs. The DEGs cover a wide range of functions related to nutrient reservoir activity, nitrogen metabolism, stress resistance, etc. ChIP-Seq analysis detected 1686 O2 DNA binding sites distributed over 1143 genes. Overlay of the RNA-Seq and ChIP-Seq results revealed 35 O2-modulated target genes. We identified four O2 binding motifs; among them, TGACGTGG appears to be the most conserved and strongest. We confirmed that, except for the 16-and 18-kD zeins, O2 directly regulates expression of all other zeins. O2 directly regulates two transcription factors, genes linked to carbon and amino acid metabolism and abiotic stress resistance. We built a hierarchical regulatory model for O2 that provides an understanding of its pleiotropic biological effects.

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Sequence, Regulation, and Evolution of the Maize 22-kD α Zein Gene Family

Song

Llaca²,

Linton³

et al. 2001

Genome Res.

120

137

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We have isolated and sequenced all 23 members of the 22-kD alpha zein (z1C) gene family of maize. This is one of the largest plant gene families that has been sequenced from a single genetic background and includes the largest contiguous genomic DNA from maize with 346,292 bp to date. Twenty-two of the z1C members are found in a roughly tandem array on chromosome 4S forming a dense gene cluster 168,489-bp long. The twenty-third copy of the gene family is also located on chromosome 4S at a site approximately 20 cM closer to the centromere and appears to be the wild-type allele of the floury-2 (fl2) mutation. On the basis of an analysis of maize cDNA databases, only seven of these genes appear to be expressed including the fl2 allele. The expressed genes in the cluster are interspersed with nonexpressed genes. Interestingly, some of the expressed genes differ in their transcriptional regulation. Gene amplification appears to be in blocks of genes explaining the rapid and compact expansion of the cluster during the evolution of maize.

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Rentao Song

The map-based sequence of the rice genome

CARPEL FACTORY, a Dicer Homolog, and HEN1, a Novel Protein, Act in microRNA Metabolism in Arabidopsis thaliana

Gene expression of a gene family in maize based on noncollinear haplotypes

Genome-Wide Characterization ofcis-Acting DNA Targets Reveals the Transcriptional Regulatory Framework ofOpaque2in Maize

Sequence, Regulation, and Evolution of the Maize 22-kD α Zein Gene Family

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