1 Kim, J.-H.,, "The cell wall characterization at immature and mature stages of Arabidopsis thaliana L" 47 (47): 11-14, 2004
2 Whetten, R. W.,, "Recent advances in understanding lignin biosynthesis" 49 : 585-609, 1998
3 Nakashima, "Proposed structure for protolignin in plant cell walls" 1989180-193
4 Marita J. M.,, "NMR characterization of lignin in Arabidopsis altered in the activity of ferulate 5-hydroxylase" 96 : 12328-12332, 1999
5 Moons, A.,, "Molecular and physiological responses to abscisic acid and salts in roots of salt-sensitive and salt-tolerant indica rice varieties" 107 : 177-186, 1995
6 Ralph, J.,, "Lignin-ferulate crosslinks in grasses active incorporation of ferulate polysaccharide esters into ryegrass lignins" 275 : 167-178, 1995
7 Lam, "Lignin in wheat internodes The reactivities of lignin units during alkaline nitrobenzene oxidation" 481-491, 1990
8 Rodriguez, H. G.,, "Growth, water relations, and accumulation of organic and inorganic solutes in roots of maize seedlings during salt stress." 113 : 881-893, 1997
9 Kawasaki, S.,, "Gene expression profiles during the initial phase of salt stress in rice" 13 : 889-822, 2001
10 He, "Formation and structure of lignin in monocotyledons IV Deposition process and structural diversity of the lignin in the cell wall of sugarcane and rice plant studies by ultraviolet microscopic spectroscopy" -45, 1991191-198
1 Kim, J.-H.,, "The cell wall characterization at immature and mature stages of Arabidopsis thaliana L" 47 (47): 11-14, 2004
2 Whetten, R. W.,, "Recent advances in understanding lignin biosynthesis" 49 : 585-609, 1998
3 Nakashima, "Proposed structure for protolignin in plant cell walls" 1989180-193
4 Marita J. M.,, "NMR characterization of lignin in Arabidopsis altered in the activity of ferulate 5-hydroxylase" 96 : 12328-12332, 1999
5 Moons, A.,, "Molecular and physiological responses to abscisic acid and salts in roots of salt-sensitive and salt-tolerant indica rice varieties" 107 : 177-186, 1995
6 Ralph, J.,, "Lignin-ferulate crosslinks in grasses active incorporation of ferulate polysaccharide esters into ryegrass lignins" 275 : 167-178, 1995
7 Lam, "Lignin in wheat internodes The reactivities of lignin units during alkaline nitrobenzene oxidation" 481-491, 1990
8 Rodriguez, H. G.,, "Growth, water relations, and accumulation of organic and inorganic solutes in roots of maize seedlings during salt stress." 113 : 881-893, 1997
9 Kawasaki, S.,, "Gene expression profiles during the initial phase of salt stress in rice" 13 : 889-822, 2001
10 He, "Formation and structure of lignin in monocotyledons IV Deposition process and structural diversity of the lignin in the cell wall of sugarcane and rice plant studies by ultraviolet microscopic spectroscopy" -45, 1991191-198
11 Sun, R. C.,, "Ester and ether linkages between hydroxycinnamic acids and lignins from wheat, rice, rye, and barley straws, maize stems, and fast-growing poplar wood." 15 : 179-188, 2002
12 Lefvre, I.,, "Discrimination between the ionic and osmotic components of salt stress in relation to free polyamine level in rice" 161 : 943-952, 2001
13 Chung, B. Y., "Differences in chemical constituents between vascular bundles and nonvascular bundles of cacao (Thobroma cacao L.)" 49 : 176-180, 2003
14 and A, "Determination of lignin in herbaceous plants by an improved acetyl bromide procedure" 145-161, 1990
15 Yamamoto, "Deposition of cell wall components in conifer tracheids" 68-88, 1989
16 Lam, T. B. T., "Characteristics of senescent straw cell walls of dwarf, semidwarf, and normal strains of rice (Oryza sativa) plants." 46 : 376-380, 2000
17 Jin, Z.,, "Changes in lignin content of leaf litters during mulching" 64 : 1023-1031, 2003