Showing papers by "Masahiro Yano published in 1996"

Starch debranching enzyme (R-enzyme or pullulanase) from developing rice endosperm: purification, cDNA and chromosomal localization of the gene

Abstract: Starch debranching enzyme (R-enzyme or pullulanase) was purified to homogeneity from developing endosperm of rice (Oryza sativa L. cv. Fujihikari) using a variety of high-performance liquid chromatography columns, and characterized. A cDNA clone encoding the full length of the rice endosperm debranching enzyme was isolated and its nucleotide sequence was determined. The cDNA contains an open reading frame of 2958 bp. The mature debranching enzyme of rice appears to be composed of 912 amino acids with a predicted relative molecular mass (Mr) of 102,069 Da, similar in size to its Mr of about 100,000 Da estimated by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. The amino acid sequence of rice debranching enzyme is substantially similar to that of bacterial pullulanase, while it bears little similarity to that of bacterial isoamylase or to glycogen debranching enzymes from human muscle and rabbit muscle. Southern blot analyses strongly suggest that the debranching enzyme gene is present as a single copy in the rice genome. Analysis by restriction fragment length polymorphism with a probe including the 3'-untranslated region of cDNA for rice debranching enzyme confirmed that the debranching enzyme gene is located on chromosome 4.

Detection of segregation distortions in an indica-japonica rice cross using a high-resolution molecular map.

Abstract: We have constructed a high-resolution rice genetic map containing 1383 DNA markers covering 1575 cM on the 12 linkage groups of rice using 186 F2 progeny from a cross between a japonica variety, ‘Nipponbare’, and an indica variety, ‘Kasalath’. Using this high-resolution molecular linkage map, we detected segregation distortion in a single wide cross of rice. The frequencies of genotypes for 1181 markers with more than 176 genotype data were plotted along this map to detect segregation distortion. Several types of distorted segregation were observed on 6 of the chromosomes. We could detect 11 major segregation distortions at ten positions on chromosomes 1, 3, 6, 8, 9, and 10. The strongest segregation distortion was at 107.2 cM on chromosome 3 and may be the gametophyte gene 2 (ga-2). The ‘Kasalath’ genotype at this position was transmitted to the progeny with about a 95% probability through the pollen gamete. At least 8 out of the 11 segregation distortions detected here are new. The use of the high-resolution molecular linkage map for improving our understanding of the genetic nature and cause of these segregation distortions is discussed.

Characterization and genetic mapping of simple sequence repeats in the rice genome.

Abstract: We searched partial sequences of over 22,706 rice cDNA and 1220 genomic DNA clones to find and characterize simple sequence repeats (SSRs) in the rice genome. The most frequently found repeated SSR motif in both cDNA and genomic DNA sequences was d(CCG/CGG)n. The second most frequently found SSR was d(AG/CT)n. In contrast with mammalian genomes, in which d(AC/GT)n sequences are the most abundant, d(AC/GT)n sequences were not frequently observed in rice. Sequences containing d(CCG/CGG)n, d(AG/CT)n repeats, and other SSRs were chosen for polymorphism detection. It was predicted that 17 of 20 SSRs in cDNA sequences were located in 5'-untranslated regions near initiation codons. Twenty-two loci can be mapped on our RFLP linkage map by these SSRs. Six markers were tested with 16 japonica rice varieties as templates for PCR. Two markers exhibited amplified fragment length polymorphism among these rice varieties, implying that SSRs are polymorphic among rice varieties which have similar genetic backgrounds. Even these polymorphic SSRs are located within or around genes which code ubiquitous proteins.

Characterization and Mapping of cDNA Encoding Aspartate Aminotransferase in Rice, Oryza sativa L.

Abstract: Fifteen cDNA clones, putatively identified as encoding aspartate aminotransferase (AST, EC 2.6.1.1.), were isolated and partially sequenced. Together with six previously isolated clones putatively identified to encode ASTs (Sasaki, et al. 1994, Plant Journal 6, 615-624), their sequences were characterized and classified into 4 cDNA species. Two of the isolated clones, C60213 and C2079, were full-length cDNAs, and their complete nucleotide sequences were determined. C60213 was 1612 bp long and its deduced amino acid sequence showed 88% homology with that of Panicum miliaceum L. mitochondrial AST. The C60213-encoded protein had an N-terminal amino acid sequence that was characteristic of a mitochondrial transit peptide. On the other hand, C2079 was 1546 bp long and had 91% amino acid sequence homology with P. miliaceum L. cytosolic AST but lacked in the transit peptide sequence. The homologies of nucleotide sequences and deduced amino acid sequences of C2079 and C60213 were 54% and 52%, respectively. C2079 and C60213 were mapped on chromosomes 1 and 6, respectively, by restriction fragment length polymorphism linkage analysis. Northern blot analysis using C2079 as a probe revealed much higher transcript levels in callus and root than in green and etiolated shoots, suggesting tissue-specific variations of AST gene expression.

Toward the Construction of an Integrated Genetic and Physical Map of Rice

Abstract: Rice is the major staple food for about half the population of the world. Improvement of rice varieties with improved economic values, such as yield and grain quality, is very important to keep up with the population growth of the world, especially in Asia. So far, the genetic basis of several traits with economic importance as well as those with biological importance have been clarified by many rice geneticists and breeders. However, further analyses, at the molecular level, will be necessary for further improvement of rice varieties.