Basic HTML Version
杨飞等
, 2011,
转基因技术在植物耐盐研究中的应用
,
分子植物育种
Vol.9 No.16 (doi: 10.5376/mpb.cn.2011.09.0016)
1118
华
, 2005,
甜菜碱合成调控基因共表达载体的构建与抗
盐初步研究
,
林业科学研究
, 18(3): 231-235)
Garay-Arroyo A., Colmenero-Flores J.M., Garciarrubio A., and
A.Covarrubias A., 2000, Highly hydrophilic proteins in
prokaryotes and eukaryotes are common during conditions
of water deficit, Biol. Chem., 275(8): 5668-5674
Guo F.Q., and Bang Z.C., 1999, Enhanced H
+
transport activity
of tonplast vesicles isolated from roots of salt-tolerant
multanto, Chin. Sci. Bull., 4(13): 1198
Hilda P., Graciela R., Sergio A., Otto M., Ingrid R., Hugo P.C.,
Edith T., Estela M.D., and Guillermian A., 2003, Salt
tolerant tomato plants show increased levels of jasmonic
acid, Plant Growth Regul., 41(2): 149-158
Hmida-Sayari A., Gargouri-Bouzid R., Bidani A., Jaoua L.,
Savoure A., and Jaoua S., 2005, Overexpression of
△
1
–pyrroline-5-carboxylate synthetase increases proline
production and confers salt tolerance in transgenic potato
plants, Plant Sci., 169(4): 746-752
Hong Z.L., Lakkineni K., Zhang Z.M., and S.Verma D.P, 2000,
Removal of feedback inhibition of
△
1
-pyrroline-5-carbox-
ylate synthetase results in increased proline accumulation
and protection of plants from osmotic stress, Plant Physiol.,
122: 1129-1136
Hu H.H., Dai M.Q., Yao J.L., Xiao B.Z., Li X.H., Zhang Q.F.,
and Xiong L.Z., Overexpressing a NAM, ATAF, and CUC
(NAC) transcription factor enhances drought resisitance
and salt tolerance in rice, PNAS, 103(35): 12987-12992
Jiang J., Yu Y., Zhao X., Liu H.Z., Wang Y.C., Yang C.P., and
Liu G.F., 2006, Analysis of salt tolerance in transgenic
tobacco with
LEA
gene, Shengwu Jishu (Biotechnology),
16(1): 16-20 (
姜静
,
于影
,
赵鑫
,
刘焕臻
,
王玉成
,
杨传
平
,
刘桂丰
, 2006,
转
LEA
基因烟草的耐盐性分析
,
生物
技术
, 16(1): 16-20)
Johansson I., Karlsson M., Shukla V.K., Chrispeels M.J., Larsson
C., and Kjellbom P., 1998, Water transport activity of the
plasma membrane aquaporin PM28A is regulated by
phosphorylation, Plant Cell, 10(3): 451-459
Jung C., Seo J.S., Han S.W., Koo Y.J., Song S.I., Nahm B.H.,
Choi Y.D., and Cheong J.J., 2007, Overexpression of
AtMYB44
enhances stomatal closure to confer abiotic stress
tolerance in transgenic Arabidopsis, Plant Physiol.,146:
623-635
Kishor P.B.K., Hong Z., Miao G.H., Hu C.A.A., and Verma
D.P.S., 1995, Overexpression of
△
1
-pyrroline-5-carboxy-
lase synthetase increases proline production and confers
osmotolerance in transgenic plants, Plant Physiol., 108(4):
1387-1394
Konstantinova T., Parvanova D., Atanassov A., and Djilianov
D., 2002, Freezing tolerant tobacco, transformed to
accumulate osmoprotectants, Plant Sci., 163(1): 157-164
Kumar S., Dhingra A., and Daniell H., 2004, Plastid-expressed
betaine aldehyde dehydrogenase gene in carrot cultured
cells, roots, and leaves confers enhanced salt tolerance,
Plant Physiol., 36(1): 2843-2854
Li B., Wang Z.C., Sun Z.G., Chen Y., and Yang F., 2005,
Resources and sustainable resource exploitation of
salinized land in China, Ganhan Diqu Nongye Yanjiu
(Agricultural Research in the Arid Areas), 23(2): 154-158
(
李彬
,
王志春
,
孙志高
,
陈渊
,
杨福
, 2005,
中国盐碱地
资源与可持续利用研究
,
干旱地区农业研究
, 23(2):
154-158)
Li L.F., Luo X.F., and Wang H.F., 2004, Advances in the
studies of gene engineering on plant drought-resistance,
Xibei Linxueyuan Xuebao (Journal of Northwest Forestry
University), 19(3): 53-57 (
李丽芳
,
罗晓芳
,
王华芳
,
2004,
植物抗旱基因工程研究进展
,
西北林学院学报
,
19(3): 53-57)
Li Y.X., Chang F.Q., Du L.Q., Guo B.H., Li H.J., Zhang J.S.,
Chen S.Y., and Zhu Z.Q., 2000, Genetic transformation of
watercress with a gene encoding for Betaine-aldehyde
Dehydrogenase (
BADH
), Zhiwu Xuebao (Acta Botanica
Sinica), 42(5): 480-484 (
李银心
,
常风启
,
杜立群
,
郭北
海
,
李洪杰
,
张劲松
,
陈受宜
,
朱至清
, 2000,
转甜菜碱
醛脱氢酶基因豆瓣菜的耐盐性
,
植物学报
, 42(5): 480-484)
Lin S.J., Li J.T., Jiang J., Bai S., Yu Y., Zhao X., and Wang Y.C.,
2006, Low temperature tolerance analysis of transgenic
tobacco with late-embryogenesis-abundant protein gene
from
Tamatix
sp, Shengwu Jishu Tongxun (Letters in
Biotechnology), 17(4): 563-566 (
林士杰
,
李俊涛
,
姜静
,
白爽
,
于影
,
赵鑫
,
王玉成
, 2006,
转柽柳晚期胚胎富集
蛋白基因烟草的耐低温性分析
,
生物技术通讯
, 17(4):
563-566)
Liu J.J., Huang S.X., Peng X.X., Liu W.B., and Wang H.Y., 1996,
Studies on high salt tolerance of transgenic tobacco, Shengwu
Gongcheng Xuebao (Chinese Journal Biotechnology), 11(4):
381-384 (
刘俊君
,
黄绍兴
,
彭学贤
,
柳维波
,
王海云
,
1996,
高度耐盐双价转基因烟草的研究
,
生物工程学报
,
11(4): 381-384)
Liu T.T., Yu Y., Zhao X., and Liu G.F., 2006, Analysis of NaHCO
3
resistance to transgenic tobacco harboring
LEA
gene,
Fenzi Zhiwu Yuzhong (Molecular Plant Breeding), 4(2):
216-221 (
刘甜甜
,
于影
,
赵鑫
,
刘桂丰
, 2006,
转
LEA
基