Basic HTML Version
分子植物育种
(
网络版
), 2012
年
,
第
10
卷
,
第
1025
-
1031
页
Fenzi Zhiwu Yuzhong (Online), 2012, Vol.10, 1025
-
1031
http://mpb.5th.sophiapublisher.com
1030
Gao SW., Que Y.X., Guo J.L., Xu L.P., and Chen R.K., 2010,
Establishment of a novel selection system by mannose and
its application in sugarcane transformation, Redai Zuowu
Xuebao (Chinses Journal of Tropical Crops), 31(05):
789-796 (
高世武
,
阙友雄
,
郭晋隆
,
许莉萍,陈如凯
.
2010,
甘露糖筛选系统的建立及在甘蔗转基因中的应用
,
热带作物学报
, 31(05): 789-796)
Guo Q.Q., 2011, Infulenza virus Hemagglutinin fused with
Escherichia
. Coli heat-labile enterotoxin B sbunit
expressed in
Lotus corniculatus
using Phosphomannose
Isomerase as a selection marker, Thesis for M.S., Chinese
Academy of Agricultural Sciences, Supervisor: Wu Y.M.
(
郭倩倩
, 2011, PMI
筛选体系的建立及
MHA-MLTB
融合
基因在百脉根中的表达
,
硕士
,
中国农业科学院
,
导师
:
吴燕民
)
Ilczuk A., Mibus H., Schmidt M., and Serek M., 2009, Use of
the pmi/mannose selection system for genetic transformation of
kalanchoe blossfeldiana poelln, Propagation of Ornamental
Plants, 9: 207-215
Jain M., Chengalrayan K., Abouzid A., and Gallo M., 2007,
Prospecting the utility of a PMI/mannose selection system
for the recovery of transgenic sugarcane (
Saccharum
spp.
hybrid) plants, Plant cell reports, 26: 581-590
Joersbo M., Donaldson I., Kreiberg J., Petersen S.G., Brunstedt
J., and Okkels F.T., 1998, Analysis of mannose selection
used for transformation of sugar beet, Molecular Breeding,
4: 111-117
Joersbo M., Petersen S.G., and Okkels F.T., 1999, Parameters
interacting with mannose selection employed for the
production of transgenic sugar beet, Physiologia Plantarum,
105: 109-115
Joersbo M., and Okkels F.T., 1996, A novel principle for
selection of transgenic plant cells: positive selection, Plant
Cell Reports, 16: 219-221
Ku J.J., Park Y., and Park Y.D., 2006, A non-antibiotic selection
system uses the phosphomannose-isomerase (PMI) gene
for Agrobacterium-mediated transformation of Chinese
cabbage, Journal of Plant Biology, 49: 115-122
Lamblin F., Aimé A., Hano C., Roussy I., Domon J.M., Van
Droogenbroeck B., and LainéE., 2007, The use of the
phosphomannose isomerase gene as alternative selectable
marker for
Agrobacterium
-mediated transformation of flax
(Linum usitatissimum), Plant Cell Reports, 26: 765-772
Li H.Q., Kang P.J., Li M.L., and Li M.R., 2007, Genetic
transformation of
Torenia fournieri
using the PMI/mannose
selection system, Plant Cell, Tissue and Organ Culture, 90:
103-109
McCue K.F., and Hanson A.D., 1990, Drought and salt tolerance:
towards understanding and application Vol. 8, Elsevier,
pp.358-362
Min B.W., Yang S.G., and Ham C.H., 2002, A new selection
system for pepper regeneration by mannose, Plant
Biotechnology, 4: 129-134
Min B.W., Cho Y.N., Song M.J., Noh T.K., Kim B.K., Chae
W.K., Park Y.S., Choi Y.D., and Harn C.H., 2007,
Successful genetic transformation of Chinese cabbage
using phosphomannose isomerase as a selection marker,
Plant Cell Reports, 26: 337-344
Negrotto D., Jolley M., Beer S., Wenck A.R., and Hansen G.,
2000, The use of phosphomannose-isomerase as a
selectable marker to recover transgenic maize plants (
Zea
mays
L.) via Agrobacterium transformation, Plant Cell
Reports, 19(8):798-803
O’Kennedy M.M., Burger J.T., and Botha F.C., 2004, Pearl
millet transformation system using the positive selectable
marker gene phosphomannose isomerase, Plant Cell
Reports, 22: 684-690
Patil G., Deokar A., Jain P.K., Thengane R.J., and Srinivasan R.,
2009, Development of a phosphomannose isomerase-based
Agrobacterium-mediated transformation system for
chickpea (
Cicer arietinum
L.), Plant Cell Reports, 28:
1669-1676
Privalle L.S., Wright M., Reed J., Hansen G., Dawson J., Dunder
E.M., Chang Y.F., Powell M.L., and Meghji M., eds., 2000,
Phosphomannose isomerase, a novel selectable plant
selection system: mode of action and safety assessment,
Proceeding of the 6
th
International Symposium on the
Biosafety of Genetically Modified Organisms, University
Extension Press, Saskatoon,Canada, pp.171-178
Qiao G.R., 2008, Salt-tolerance transformation of
Liquidambar
formosana
L. mediated by
Agrobacterium
with a positive
selection system, Thesis for M.S., Chinese Academy of
Forestry Sciences, Supervisor: Jiang J.M. (
乔桂荣
, 2008,
利用安全选择标记系统进行枫香耐盐转基因研究
,
硕士
,
中国林业科学研究院
,
导师
:
姜景名
)
Qiao G., Zhou J., Jiang J., Sun Y., Pan L., Song H., Jiang J.,
Zhuo R., Wang X., and Sun Z., 2010, Transformation of
Liquidambar formosana
L. via
Agrobacterium
tumefaciens
using a mannose selection system and recovery of salt
tolerant lines, Plant Cell, Tissue and Organ Culture, 102:
163-170.
Reed J., Privalle L., Powell M., Meghji M., Dawson J., Dunder
E., Sutthe J., Wenck A., Launis K., Kramer C., Chang Y.F.,
Hansen G., and Wright M., 2001, Phosphomannose
isomerase: An efficient selectable marker for plant