Biomedical Engineering Reference
In-Depth Information
48. Suzuki K, Itoh T. The changes in cell wall architecture during lignification of bamboo,
Phyllostachys aurea
Carr. Trees-Struct Func. 2001;15(3):137-47.
49. Liu WG, Wang LQ, Bai YH. Research progress in the beneficial elements-silicon for plants.
Acta Bot Boreali-Occidentalia Sin. 2003;23(12):2248-53.
50. Xu CX, Liu ZP, Liu YL. The physiological function of silicon in plants. Plant Physiol Commun.
2004;40(6):753-7.
51. Ma JF, Yamaji N. Silicon uptake and accumulation in higher plants. Trends Plant Sci.
2006;11(8):392-7.
52. Wang LJ, Wang YH. Nanostructures SiO
2
in plant body. Chin Sci Bull. 2001;46(8):625-32.
53. Ji XE, Zhang MS, Yu HQ, Bai BZ. Silicon nutrient of plants. Agric Technol. 1998;18(2):11-3.
54. Yu B, Chen HZ. Effects of steam-exploded fractionation on the structure and distribution of
silicon dioxide in corn straw. Trans Chin Soc Agric Eng. 2008;24(10):190-4.
55. Chen HZ, Yu B. A preparation method of nano-silica by straw. China patent 200710062669.
2007.
56. Du JY, Bai L, Bai B. Chemical composition and basic characteristics of pectin. Agric Technol.
2002;22(5):72-6.
57. Hardell H, Leary G, Stoll M, Westermark U. Variations in lignin structure in defined
morphological parts of birch [
Betula verrucosa
, middle lamella, primary wall, secondary wall,
ray cells, vessels]. Svensk papperstidning. 1980;83(2):44-9.
58. Lu SM, Xi Y, Jin YF, Zhang Y. Structure and function of plant polygalacturonases. Acta Hortic
Sin. 1999;26(6):369-75.
59. Xue CH, Zhang YQ, Li ZJ, Li ZJ. Recent development of pectin and pectolytic enzyme. J Food
Sci Biotechnol. 2005;24(6):94-9.
60. Xi W, Li XP. An investigation to reaction properties of hydrogen peroxide with
“
-O-4 lignin
quinoid chromophoric group. China Pulp Pap Ind. 2008;29(16):32-5.
61. Li XP, Wu S. Research development of the reaction characteristic between lignin quinonoid
chromophoric group and hydrogen peroxide. J Cellul Sci Technol. 2006;14(4):52-6.
62. Han YJ, Chen HZ. Plant cell wall proteins & enzymatic hydrolysis of lignocellulose. Prog
Chem. 2007;19(7/8):1153-8.
63. Li LC, Wang X, Jing JH. The existence of expansion and its properties in the hypocotyls of
soybean seedlings. Acta Bot Sin. 1998;40(7):627-34.
64. Lee SJ, Saravanan RS, Damasceno C, Yamane H, Kim BD, Rose JKC. Digging deeper into the
plant cell wall proteome. Plant Physiol Biochem. 2004;42(12):979-88.
65. Li XB, Yang ZH. Structure, function, crossing linking and biosythesis of extensions. Plant
Physiol Commun. 1990;3:7-13.
66. Sandgren M, Ståhlberg J, Mitchinson C. Structural and biochemical studies of GH family
12 cellulases: improved thermal stability, and ligand complexes. Prog Biophys Mol Biol.
2005;89(3):246-91.
67. Jamet E, Canut H, Boudart G, Pont-Lezica RF. Cell wall proteins: a new insight through
proteomics. Trends Plant Sci. 2006;11(1):33-9.
68. Tong B, Rao JP, Ren XL, Li JR. Studying progress of plant cell wall proteins expansions. Chin
Agric Sci Bull. 2005;21(9):112-15.
69. Shcherban TY, Shi J, Durachko DM, Guiltinan MJ, McQueen-Mason SJ, Shieh M, Cosgrove
DJ. Molecular cloning and sequence analysis of expansins—a highly conserved, multigene
family of proteins that mediate cell wall extension in plants. Proc Natl Acad Sci U S A.
1995;92(20):9245-9.
70. Whitney
SEC,
Gidley
MJ,
McQueen-Mason
SJ.
Probing
expansin
action
using
cellu-
lose/hemicellulose composites. Plant J. 2001;22(4):327-34.
71. Han YJ, Chen HZ. Characterization of
“
-glucosidase from corn stover and its application in
simultaneous saccharification and fermentation. Bioresour Technol. 2008;99(14):6081-7.
72. Lu D, Chen HZ, Ma RY. Effect of straw apoplast protein on cellulase activity. Chin J
Biotechnol. 2006;22(2):257-62.
73. Han YJ, Chen HZ. Synergism between corn stover protein and cellulase. Enzyme Microb
Technol. 2007;41(5):638-45.
