Results 221 to 230 of about 14,574 (243)

Biopolyester Membranes of Plants: Cutin and Suberin

Science, 1980
Cutin, a biopolyester composed of hydroxy and epoxy fatty acids, is the barrier between the aerial parts of higher plants and their environment. Suberin, a polymer containing aromatics and polyesters, functions as a barrier in underground parts, wound surfaces, and a variety of internal organs.
openaire   +2 more sources

Investigation of suberinic acids-bonded particleboard

European Polymer Journal, 2019
Abstract Birch outer bark and residual veneer shorts are one of the main leftovers from plywood production and have a high potential to be converted into value-added products. Birch (Betula pendula) outer bark contains up to 45% (dry basis) of suberin and has been recognized as a promising resource of suberinic acids (SA), where the bonding potential
Ramunas Tupciauskas, Janis Rizhikovs, Juris Grinins, Aigars Paze, Martins Andzs, Prans Brazdausks, Maris Puke, Ance Plavniece   +7 more
openaire   +1 more source

The evolutionary innovation of root suberin lamellae contributed to the rise of seed plants

Nature Plants, 2023
Yu Su, Tao Feng, Chu-Bin Liu, Haodong Huang, Ya-Ling Wang, Xiaojuan Fu, Mei-Ling Han, Xuanhao Zhang, Xing Huang, Jia-Chen Wu, Tao Song, Hui Shen, Xianpeng Yang, Lin Xu, Shiyou Lü, Dai-Yin Chao   +15 more
semanticscholar   +1 more source

Cutin and Suberin Polyesters

2016
Cutin and suberin are cell wall‐associated glycerolipid polymers that are specific to plants. Cutin forms the framework of the cuticle sealing the aerial epidermis, while suberin is present in the periderm of barks and underground organs. Suberised walls are also found in the root endodermis.
Li-Beisson, Yonghua, Verdier, Gaëtan, Xu, Lin, Beisson, Fred   +3 more
openaire   +1 more source

Methyl jasmonate facilitates wound healing of Chinese yam tubers via positively regulating the biosynthesis and polymerization of suberin polyphenolics

Scientia Horticulturae, 2023
Xiaopeng Wei, Linyao Liu, Zhenhao Xu, Jing Xue, P. Geng, Zhenzhen Ge, Xin Eric Wang, Liang Zhang, W. Zong, Linchun Mao   +9 more
semanticscholar   +1 more source

Chitooligosaccharide accelerated wound healing in potato tubers by promoting the deposition of suberin polyphenols and lignin at wounds.

Plant physiology and biochemistry : PPB, 2023
Pengdong Xie, Yangyang Yang, William Oyom, Ting-Ya Su, Ying-Hao Tang, Yi Wang, Yongcai Li, D. Prusky, Y. Bi   +8 more
semanticscholar   +1 more source

Comprehensive analysis of KCS gene family in pear reveals the involvement of PbrKCSs in cuticular wax and suberin synthesis and pear fruit skin formation

Plant Molecular Biology, 2023
Jing Zhang, Chen Zhang, Xi Li, Ziwei Liu, Xiao Liu, Chunlei Wang   +5 more
semanticscholar   +1 more source

Suberin nanostructures of Malus domestica Borkh. (Rosaceae) pericarp

Micron
New data are presented on nanosized suberin structures that directly participate in the formation of suberin deposits into the cell walls of the Malus domestica outer pericarp zone. The nanostructures were spherical formations containing conglomerates of electron-dense nanoparticles (diameter 5-30 nm) in the center.
Tamara Kh. Kumachova, Alexander S. Voronkov   +1 more
openaire   +2 more sources

Function identification of Arabidopsis GPAT4 and GPAT8 in the biosynthesis of suberin and cuticular wax.

Plant Science, 2023
Xuanhao Zhang, Huani Gao, Yi Liu, Huayan Zhao, Shiyou Lü   +4 more
semanticscholar   +1 more source

Chemical composition and in vitro antibacterial activity of bark extractives and suberin monomers from Pinus brutia and Pinus nigra

European Journal of Wood and Wood Products, 2023
I. Dönmez, E. Önem
semanticscholar   +1 more source