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Proceedings of the Japan Academy, Ser. B, Physical and Biological Sciences

Vol. 88 No. 10 (2012)

  Vol. 88 No. 10 (2012)
Caption
 
Reviews
Molecular genetics, physiology and biology of self-incompatibility in Brassicaceae
Masao WATANABE, Keita SUWABE, Go SUZUKI
Proc. Jpn. Acad., Ser. B, Vol. 88, 519-535 (2012) [abstract] [PDF]
Reminiscence of our research on membrane phospholipids in mammalian cells by using the novel technology
Yuzuru AKAMATSU
Proc. Jpn. Acad., Ser. B, Vol. 88, 536-553 (2012) [abstract] [PDF]
My journey into the world of sphingolipids and sphingolipidoses
Konrad SANDHOFF
Proc. Jpn. Acad., Ser. B, Vol. 88, 554-582 (2012) [abstract] [PDF]
Original Article
How many hair follicles are innervated by one afferent axon? A confocal microscopic analysis of palisade endings in the auricular skin of thy1-YFP transgenic mouse
Maasa SUZUKI, Satomi EBARA, Taro KOIKE, Sotatsu TONOMURA, Kenzo KUMAMOTO
Proc. Jpn. Acad., Ser. B, Vol. 88, 583-595 (2012) [abstract] [PDF]
Cover Illustration
Dissection of molecular mechanisms of self-incompatibility in Brassicaceae

  Higher plants evolved pollination systems to prevent inbreeding depression and to promote outcrossing. One of the most sophisticated and prevalent systems is the self-incompatibility (SI). SI was found over 250 years ago by old plant scientists and was also attended by Charles Darwin who published two important books about pollination systems and flower forms. SI is defined as “the inability of a fertile hermaphrodite seed plant to produce zygotes after self-pollination”, and most of SI is controlled by a single locus, termed S, with multiple alleles. In Brassicaceae, SI has two interesting biological and agronomical point of views: a model system of cell-cell communication between pollen and pistil and an important trait for F1 hybrid seed production in Brassica and Raphanus vegetables. However, molecular mechanism of self and non-self pollen discrimination on the Brassica stigma surface had long been unexplained. In 2000, Watanabe and co-workers determined both of male and female S determinants and achieved the molecular dissection of SI recognition system in Brassica rapa. They also accomplished re-evolution of the SI system in Arabidopsis by genetic transformation and revealed epigenetic regulation of pollen dominance relationships between S alleles. These points and recent topics of SI research in Brassicaceae are described on pages 519 to 535. Cover photo shows two different types of primrose flowers in the heteromorphic SI system which is famous as a pioneer work by C. Darwin.

Kokichi Hinata
Professor Emeritus, Tohoku University

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