Identification of a mitochondrial nucleoside diphosphate kinase from the green alga Dunaliella tertiolecta

We isolated a full-length cDNA encoding a nucleoside diphosphate (NDP) kinase from a Dunaliella tertiolecta cDNA library by homology cloning and rapid amplification of cDNA ends-PCR. The cDNA sequence, consisting of 840 bp, contained an open reading frame coding for a 221-amino acid protein. The predicted 24-kDa protein was named DtNDK1. It possesses all the residues involved in nucleotide binding and catalysis and, in its long N-terminus, contains putative mitochondrial targeting peptides. The full-length pre-protein expressed in Escherichia coli as a recombinant N-terminally His-tagged protein was retained in inclusion bodies, totally devoid of NDP kinase activity. Upon expression in yeast cells, the full-length protein His-tagged at the C-terminus was found processed in a soluble form that was lacking the first 67 amino acids from the N-terminus. The mature protein, which was purified by affinity chromatography to near homogeneity, showed NDP kinase activity. Confocal microscopy on yeast cells expressing the recombinant protein revealed the specific mitochondrial localization of DtNDK1 labeled at the C-terminus with green fluorescent protein.     

Isolation and characterization of a rice dwarf mutant with a defect in brassinosteroid biosynthesis

We have isolated a new recessive dwarf mutant of rice (Oryza sativa L. cv Nipponbare). Under normal growth conditions, the mutant has very short leaf sheaths; has short, curled, and frizzled leaf blades; has few tillers; and is sterile. Longitudinal sections of the leaf sheaths revealed that the cell length along the longitudinal axis is reduced, which explains the short leaf sheaths. Transverse sections of the leaf blades revealed enlargement of the motor cells along the dorsal-ventral axis, which explains the curled and frizzled leaf blades. In addition, the number of crown roots was smaller and the growth of branch roots was weaker than those in the wild-type plant. Because exogenously supplied brassinolide considerably restored the normal phenotypes, we designated the mutant brassinosteroid-dependent 1 (brd1). Further, under darkness, brd1 showed constitutive photomorphogenesis. Quantitative analyses of endogenous sterols and brassinosteroids (BRs) indicated that BR-6-oxidase, a BR biosynthesis enzyme, would be defective. In fact, a 0.2-kb deletion was detected in the genomic region of OsBR6ox (a rice BR-6-oxidase gene) in the brd1 mutant. These results indicate that BRs are involved in many morphological and physiological processes in rice, including the elongation and unrolling of leaves, development of tillers, skotomorphogenesis, root differentiation, and reproductive growth, and that the defect of BR-6-oxidase caused the brd1 phenotype.     

Novel gene encoding a Ca2+-binding protein and under hexokinase-dependent sugar regulation

A cDNA encoding a predicted 15-kDa protein was earlier isolated from sugar-induced genes in rice embryos (Oryza sativa L.) by cDNA microarray analysis. Here we report that this cDNA encodes a novel Ca2+-binding protein, named OsSUR1 (for Oryza sativa sugar-up-regulated-1). The recombinant OsSUR1 protein expressed in Escherichia coli had 45Ca2+-binding activity. Northern analysis showed that the OsSUR1 gene was expressed mainly in the internodes of mature plants and in embryos at an early stage of germination. Expression of the OsSUR1 gene was induced by sugars that could serve as substrates of hexokinase, but expression was not repressed by Ca2+ signaling inhibitors, calmodulin antagonists and inhibitors of protein kinase or protein phosphatase. These results suggested that Os-SUR1 gene expression was stimulated by a hexokinase-dependent pathway not mediated by Ca2+.     

Protein Kinase Inhibitors Inhibit Stimulation of Inositol Phospholipid Turnover and Induction of Phenylalanine Ammonia-Lyase in Fungal Elicitor-Treated Tobacco Suspension Culture Cells

Elicitor prepared from Phytophthora nicotianae stimulated inositolphospholipid turnover and induced phenylalanine ammonia-lyaseactivity in tobacco suspension culture cells [Kamada and Muto(1994) Plant Cell Physiol. 35: 397]. Protein kinase inhibitors,K252a and staurosporine inhibited both responses. These resultssuggest that inositol phospholipid turnover plays an importantrole in PAL induction through protein kinases. In addition,their mode of inhibition were different, proposing that severaltypes of protein kinases are involved in these elicitor-inducedresponses. ¹Present address: The Johns Hopkins University School of Hygieneand Public Health, 615 N. Wolfe St., Baltimore, Maryland 21205,U.S.A. ²Present address: Nagoya University BioScience Center and GraduateSchool of Agricultural Sciences, Nagoya University, Chikusa-ku,Nagoya, 464-01 Japan.     

Variable copy number DNA sequences in rice

Summary We have cloned two types of variable copy number DNA sequences from the rice embryo genome. One of these sequences, which was cloned in pRB301, was amplified about 50-fold during callus formation and diminished in copy number to the embryonic level during regeneration. The other clone, named pRB401, showed the reciprocal pattern. The copy numbers of both sequences were changed even in the early developmental stage and eliminated from nuclear DNA along with growth of the plant. Sequencing analysis of the pRB301 insert revealed some open reading frames and direct repeat structures, but corresponding sequences were not identified in the EMBL and LASL DNA databases. Sequencing of the nuclear genomic fragment cloned in pRB401 revealed the presence of the 3rps12-rps7 region of rice chloroplast DNA. Our observations suggest that during callus formation (dedifferentiation), regeneration and the growth process the copy numbers of some DNA sequences are variable and that nuclear integrated chloroplast DNA acts as a variable copy number sequence in the rice genome. Based on data showing a common sequence in mitochondria and chloroplast DNA of maize (Stern and Lonsdale 1982) and that the rps12 gene of tobacco chloroplast DNA is a divided gene (Torazawa et al. 1986), it is suggested that the sequence on the inverted repeat structure of chloroplast DNA may have the character of a movable genetic element.     

Relationship between symptoms and gene expression induced by the infection of three strains of Rice dwarf virus

Background

Rice dwarf virus (RDV) is the causal agent of rice dwarf disease, which often results in severe yield losses of rice in East Asian countries. The disease symptoms are stunted growth, chlorotic specks on leaves, and delayed and incomplete panicle exsertion. Three RDV strains, O, D84, and S, were reported. RDV-S causes the most severe symptoms, whereas RDV-O causes the mildest. Twenty amino acid substitutions were found in 10 of 12 virus proteins among three RDV strains.

Methodology/Principal Findings

We analyzed the gene expression of rice in response to infection with the three RDV strains using a 60-mer oligonucleotide microarray to examine the relationship between symptom severity and gene responses. The number of differentially expressed genes (DEGs) upon the infection of RDV-O, -D84, and -S was 1985, 3782, and 6726, respectively, showing a correlation between the number of DEGs and symptom severity. Many DEGs were related to defense, stress response, and development and morphogenesis processes. For defense and stress response processes, gene silencing-related genes were activated by RDV infection and the degree of activation was similar among plants infected with the three RDV strains. Genes for hormone-regulated defense systems were also activated by RDV infection, and the degree of activation seemed to be correlated with the concentration of RDV in plants. Some development and morphogenesis processes were suppressed by RDV infection, but the degree of suppression was not correlated well with the RDV concentration.

Conclusions/Significance

Gene responses to RDV infection were regulated differently depending on the gene groups regulated and the strains infecting. It seems that symptom severity is associated with the degree of gene response in defense-related and development- and morphogenesis-related processes. The titer levels of RDV in plants and the amino acid substitutions in RDV proteins could be involved in regulating such gene responses.