Zobrazeno 1 - 7
of 7
pro vyhledávání: '"Hideto Hiraide"'
Autor:
Miyuki Matsuo-Ueda, Masato Yoshida, Saori Sato, Hiroyuki Yamamoto, Akinori Ota, Hideto Hiraide
Publikováno v:
American Journal of Plant Sciences. 10:1949-1968
The transverse section of compression wood tracheids has a circular shape and intercellular spaces. The cause has not been determined yet; however, we hypothesized that peeling of the cell wall adhesion would cause cellular intervals, resulting in ci
Autor:
Yasuyuki Matsushita, Arata Yoshinaga, Hideto Hiraide, Kazuhiko Fukushima, Pui Ying Lam, Yuki Tobimatsu, Masaru Kobayashi, Keiji Takabe
Publikováno v:
The New Phytologist
Summary The woody stems of coniferous gymnosperms produce specialised compression wood to adjust the stem growth orientation in response to gravitropic stimulation. During this process, tracheids develop a compression‐wood‐specific S2L cell wall
Autor:
Hideto Hiraide1 hiraide.hideto@e.mbox.nagoya-u.ac.jp, Masato Yoshida1, Saori Sato1, Hiroyuki Yamamoto1
Publikováno v:
Functional Plant Biology. 2016, Vol. 43 Issue 6, p542-552. 11p.
Publikováno v:
American Journal of Plant Sciences. :1151-1162
Woody plants develop a specialized secondary xylem known as reaction wood to enable formation of an ideal shape. Reaction wood in coniferous species is known as compression wood, and that of woody angiosperms as tension wood. However, the genus Buxus
Publikováno v:
American Journal of Plant Sciences. :2785-2798
Special xylem tissue called “compression wood” is formed on the lower side of inclined stems when gymnosperms grow on a slope. We investigated the molecular mechanism of compression wood formation. Transcriptome analysis by next-generation sequen
Publikováno v:
Functional plant biology : FPB. 43(6)
The secondary cell wall of compression wood tracheids has a highly lignified region (S2 L) in its outermost portion. To better understand the mechanism of S2 L formation, we focussed on the activity of laccase (a monolignol oxidase) and performed in
Publikováno v:
Functional Plant Biology. 40:637
Lignin is a major component of plant cell walls and is synthesised through oxidative polymerisation of monolignols. The transcription level of laccase, an enzyme implicated in monolignol polymerisation, is higher in the tissue forming compression woo