A rice mTERF protein V14 sustains photosynthesis establishment and temperature acclimation in early seedling leaves.

BACKGROUND: Plant mitochondrial transcription termination factor (mTERF) family members play important roles in development and stress tolerance through regulation of organellar gene expression. However, their molecular functions have yet to be clearly defined. RESULTS: Here an mTERF gene V14 was identified by fine mapping using a conditional albino mutant v14 that displayed albinism only in the first two true leaves, which was confirmed by transgenic complementation tests. Subcellular localization and real-time PCR analyses indicated that V14 encodes a chloroplastic protein ubiquitously expressed in leaves while spiking in the second true leaf. Chloroplastic gene expression profiling in the pale leaves of v14 through real-time PCR and Northern blotting analyses showed abnormal accumulation of the unprocessed transcripts covering the rpoB-rpoC1 and/or rpoC1-rpoC2 intercistronic regions accompanied by reduced abundance of the mature rpoC1 and rpoC2 transcripts, which encode two core subunits of the plastid-encoded plastid RNA polymerase (PEP). Subsequent immunoblotting analyses confirmed the reduced accumulation of RpoC1 and RpoC2. A light-inducible photosynthetic gene psbD was also found down-regulated at both the mRNA and protein levels. Interestingly, such stage-specific aberrant posttranscriptional regulation and psbD expression can be reversed by high temperatures (30 ~ 35 °C), although V14 expression lacks thermo-sensitivity. Meanwhile, three V14 homologous genes were found heat-inducible with similar temporal expression patterns, implicating their possible functional redundancy to V14. CONCLUSIONS: These data revealed a critical role of V14 in chloroplast development, which impacts, in a stage-specific and thermo-sensitive way, the appropriate processing of rpoB-rpoC1-rpoC2 precursors and the expression of certain photosynthetic proteins. Our findings thus expand the knowledge of the molecular functions of rice mTERFs and suggest the contributions of plant mTERFs to photosynthesis establishment and temperature acclimation.

Robust multi-type plasmid modifications based on isothermal in vitro recombination.

A robust strategy for multi-type plasmid modifications is developed based on the isothermal in vitro recombination technology, by which any combination of the sequence modifications can be efficiently achieved in plasmids at any desired position in a seamless manner. As an example, we showed that a plasmid modification with insertion of a GFP gene, deletion of a 623-bp fragment, and substitution of an ampicillin resistance gene by a kanamycin resistance gene was accomplished simultaneously by this method. Therefore, the isothermal in vitro recombination-based multi-type plasmid modification strategy is a useful approach for broad application prospects in molecular biology studies.

[Construction, characterization and screening of a transformation-competent artificial chromosome (TAC) library of wheat-Thinopyrum intermedium translocation line with resistance to barley yellow dwarf virus].

A transformation-competent artificial chromosome (TAC) library was constructed from the genomic DNA of wheat-Th. intermidium translocation line HW642 that harbor the barley yellow dwarf virus (BYDV) resistance gene derived from Th. intermidium. The library consists of 2.3 x 10(6) clones with an average insert size of 22kb, representing approximately 2.5 haploid genome equivalents and is able to give a greater than 95.77% probability of isolating single-copy DNA sequences from this library. The library was stored as frozen cultures in 24 96-well formats, each well containing approximately 1000 different clones. TAC clones containing interest gene could be identified by the pooled PCR technique. A sequence characterized amplified region (SCAR) marker cosegregated with BYDV resistance gene, derived from a simple sequence repeat (SSR) or microsatellite marker wms37 of wheat, was applied to screen the TAC library. Twelve clones were successfully selected by the pooled PCR method. PCR products were identified by hybridizing with the SCAR marker band of Th. intermidium. Out of 12 clones, 10 positive clones restricted by Hind III were shown to hybridize with genomic DNA of Th. intermidium. These results showed evidences that the 10 clones could be used as candidate clones for isolation of BYDV resistance and its related genes, and the TAC library is a useful resource for isolating genes.

[Molecular mapping of the fertility restorer gene Rf-4 for WA cytoplasmic male sterility in rice].

The cytoplasmic male sterility for wild-abortive (CMS-WA) has been wildly used for hybrid rice breeding in China. The fertility restoration of CMS-WA is controlled mainly by two independent and dominant nuclear fertility restoring genes, Rf-3 and Rf-4. To map the Rf-4 gene with molecular markers, rice YAC clones of RGP, Japan were used to create new molecular marker. YAC contigs located between RFLP markers R1877 and G2155 on chromosome 10 were confirmed by hybridization with 12 RFLP probes. Six YAC clones, Y4630, Y2670, Y4892, Y2111, Y3821 and Y5528 were identified. Chromosome DNAs of the YAC clones were prepared and separated by CHEF. A total of 119 probes were created by sub-cloning of the YAC DNAs. RFLPs were screened between Zhenshan 97A and its near-isogenic lines with Rf-4Rf-4 genotype. Two probes, Y3-8 from Y4892 and Y1-10 from Y4630, were found to be polymorphic. Using F2 populations from crosses between Zhenshan 97A and its near-isogenic lines ZSR11, Y3-8 and Y1-10 were mapped to Rf-4 locus with genetic distances of 0.9 cM and 3.2 cM, respectively.