Yuhi Hiraoka scite author profile

Yuhi Hiraoka

3Publications

15Citation Statements Received

30Citation Statements Given

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Hokkaido University, Kyoto Prefectural University

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Cytological affinities and interfertilities between Lolium temulentum and L. persicum (Poaceae) accessions

2006

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Interspecific crossing between L. temulentum L. and L. persicum Boiss. & Hohen. ex Boiss. was performed to clarify their interfertility based on the results of chromosome pairing, pollen fertility and seed set. Both parents were normal with a high percentage of chromosome association of ring bivalents in contrast to rod bivalents at metaphase I, pollen fertility and seed set, but F1 hybrids showed different proportions of them for each crossing combination. Chromosome affinity expressed by pairing was certainly a factor affecting the pollen fertility or seed set in F1 hybrids, but it was not the most important. The positive correlation was generally found between pollen fertility and seed set of F1 hybrids. The L. persicum accession with relatively high interfertility with L. temulentum was supposed to be derived from natural hybridization between L. temulentum and L. persicum. The degree of cytogenetic differentiation between L. temulentum and L. persicum existed because of lower chromosomal pairing, pollen fertility and seed set, but their F1 hybrids were partially fertile.

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Inheritance of Seed Shattering in Lolium temulentum and L. persicum Hybrids

Senda

Hiraoka

Tominaga

2006

Genet Resour Crop Evol

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Lolium temulentum and L. persicum are non-crop species found in wheat and barley fields. L. temulentum has non-shattering seeds like the associated grain crops, whereas L. persicum seeds shatter after maturity. We analyzed the inheritance mode of shattering tendency by comparing the F 2 of L. temulentum and L. persicum hybrids. The selfed progeny of L. temulentum and L. persicum exhibited typical non-shattering (1.6% shattering) and shattering phenotypes (70.8%), respectively. F 1 hybrids of L. temulentum · L. persicum and its reciprocals were of the shattering phenotype (71.4% and 63.8%, respectively), indicating that shattering is dominant to non-shattering. When the phenotype ratio was assumed to be 15 shattering: 1 non-shattering, the v 2 value for F 2 segregation was not significant at the 5% level, and the reciprocal effect was not detected. This indicates that the non-shattering tendency is controlled by two recessive genes. The two-gene inheritance model of shattering tendency suggests that harvest is the selector for seed shattering in cultivated fields, thus the alternative tendency for non-shattering seeds of L. temulentum or shattering of L. persicum would be better adapted to cultivated fields.

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An autopsy case of autoimmune meningoencephalitis caused by pembrolizumab

Hiraoka¹,

Ichikawa²,

Kusumi³

et al. 2022

Urology Case Reports

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Yuhi Hiraoka

Cytological affinities and interfertilities between Lolium temulentum and L. persicum (Poaceae) accessions

Inheritance of Seed Shattering in Lolium temulentum and L. persicum Hybrids

An autopsy case of autoimmune meningoencephalitis caused by pembrolizumab

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