岡山大学資源生物科学研究所 Acta Medica Okayama 0916-930X 2 1 1994 オオムギの芒におけるフェノール着色反応の遺伝性 55 62 EN Kazuyoshi Takeda Chan Lin Zhang Ryoichi Kanatani The inheritance and geographical distribution of the phenol reaction in rice has been investigated intensively. On the other hand, in the case of barley, almost all of the varieties show positive reaction to phenol, and inheritance study of the trait has not yet been reported. We investigated the phenol reaction of ca. 5,000 barley varieties preserved at the Barley Germplasm Center of Okayama University to find about 30 varieties which show a negative reaction to the phenol. These varieties are mainly from Southwest Asia. The reaction of awn was sharpest at all parts of the plant including seeds. The positive reaction must be the prototype of barley, because Hordeum spontaneum, a possible ancestor of the cultivated barley, shows positive reaction. Inheritance and linkage studies were conducted using varieties with negative reaction and linkage testers with positive reaction. Phenol reaction was dominant and showed a clear 3:1 segregation ratio in the F2 populations, indicating the trait was controlled by a single dominant gene Ph(phenol reaction). Linkage study revealed that Ph was linked with four marker genes(three loci) on the chromosome 2 and independent of 13 other marker genes located on the chromosomes except chromosome 2. Ph may be a useful marker gene and an interesting material for molecular-biological studies. No potential conflict of interest relevant to this article was reported. Barley Phenol reaction Linkage analysis
岡山大学資源生物科学研究所 Acta Medica Okayama 0029-0874 62 3 1991 ムギ頬赤かび病菌(Fusarium graminearum Schwabe)における分生子の大量培養法 177 189 EN Ryoichi Kanatani Kazuyoshi Takeda No potential conflict of interest relevant to this article was reported.