GAB-2017v8n1 - page 10

Genomics and Applied Biology, 2017, Vol.8, No.1, 1-7
7
Ramiro D.A., Melotto-Passarin D.M., Barbosa M.D.A., Santos F.D., Gomez S.G.P., Massola Junior N.S., Lam E. and Carrer H., 2016, Expression of
Arabidopsis Bax Inhibitor-1 in transgenic sugarcane confers drought tolerance. Plant Biotech. J., 14:1826–1837
Rani K.S., Surinder K., Sandhu S. and Gosal, 2012, Genetic augmentations of sugarcane through direct gene transformation with Osgly II gene construct. Sugar
Tech., 14(3):229-236
Rashid A.H.A. and Lateef D.D., 2016, Novel techniques for gene delivery into plants and its applications for disease resistance in crops. Amer. J. Plant Sci., 7:
181-193
Rasul F., Sohail M.N., Mansoor S. and Asad S., 2014, Enhanced transformation efficiency of
Saccharum officinarum
by vacuum infiltration assisted
Agrobacterium
-mediated transformation. Int. J. Agric. Biol., 16: 1147-1152
Reis R.R., Cunha B.A.D.B., Martins P.K., Martins M.T.B., Alekcevetch J.C., Júnior A.C., Andrade,A.C., Ribeiro A.P., Qin F., Mizoi J., Yamaguchi-Shinozaki K.,
Nakashima K., Carvalho J.F.C., Sousa C.A.F., Nepomuceno A.L., Kobayashi A.K., Molinari H.B.C., 2014, Induced over-expression of AtDREB2A CA
improves drought tolerance in sugarcane. Plant Sci., 221-222: 59-68
Satpal S.B., Routray A.K., Mishra R., 2011, Rapid
in vitro
propagation technique for sugarcane variety 018, Int. J. Pharma and Bio Sci.,2(4): B242-279
Singh R.K., Kumar P., Tiwari N.N., Rastogi J. and Singh S.P., 2013, Current status of sugarcane transgenic: An overview. Adv. Genet. Eng., 2: 112
Srivong T., Zhu Y.J., Pongdontri P., Pliansinchai U., Sakuanrungsirikul S., Borthakur D., Nagai C. and Kosittrakun M., 2015, Optimization of callus induction
and plant regeneration in sugarcane (
Saccharum
spp.) for a study of sucrose accumulation in relation to soluble acid invertase expression. Chiang Mai. J.
Sci., 42(4): 797-805
Suprasann P., 2010, Biotechnological interventions in sugarcane improvement: Strategies, methods and progress. Nuclear Agric. & Biotech. Div., BARC
Newsletter, 316: 47-53
Taparia Y., Gallo M. and Altpeter F., 2012, Comparison of direct and indirect embryogenesis protocols, biolistic gene transfer and selection parameters for
efficient genetic transformation of sugarcane. Plant Cell Tiss. Organ Cult., 111:131-141
Tesfa M., Admassu B., Bantte K., 2016,
In vitro
rooting and acclimatization of micropropagated elite sugarcane (
Saccharum officinarum
L.) genotypes - N52
and N53., J Tissue Sci. Engg., 7: 164
Tiel Kenia, Enriquez G.A., Ceballo Y., Soto N., Fuentes A.D., Ferreira A., Coll Y. and Pujol M., 2006, Development of a system for rapid plant regeneration
from in vitro sugarcane (
Saccharum officinarum
L.) meristematic tissue. Biotecnologia Aplicada, 23(1): 22-24
Tuan V.A., Hanh H.H., Phuong P.T.T., Thuy P.T.T., Thuy P.T., Vinh D.N. and Khanh T.D., 2015, Rapid
in viro
multiplication of some sugarcane cultivars
(
Saccharum officnarum
L.) via embryogenic callus culture of young leaf tissues, Int. J. Dev. Res., 5(12): 6139-6146
Vickers J.E., Grof C.P.L., Bonnett G.D., Jackson P.A. and Morgan T.E., 2005, Effects of tissue culture, biolistic transformation and introduction of PPO and SPS
gene constructs on performance of sugarcane clones in the field. Aust J. Agr. Res., 56(1):57-68
Vinayak V., Dhawan A.K. and Gupta V.K., 2009, Efficiency of non-purine and purine cytokinins on shoot regeneration of sugarcane, Indian Journal of
Biotechnology, vol.8, pp 227-31
Wang Z.Z., Zhang S.Z., Yang B.P. and Ruil Y., 2005. Trehalose synthase gene transfer mediated by
Agrobacterium tumefaciens
enhances resistance to osmotic
stress in sugarcane. Sugar Technol., 7(1):49-54
Yadav S., Ahmad A. and Lal M., 2012, Effect of different auxins and cytokinins on in vitro Multiplication and rooting of shoot cultures in Sugarcane. Int. J. Biol.
& Pharma. Res., 3(6): 814-818
Yu T.A., Yeh S.D. and Yang J.S., 2003, Comparison of the effects of kanamycin and geneticin on regeneration of papaya from root tissue. Plant Cell Tiss. Org.,
169:178-74
Zamir R., Khalil S.A., Shah S.T., Khan M.S., Ahma, K., Shahenshah, 2014, Efficient
in vitro r
egeneration of sugarcane (
Saccharum officinarum
L.) from bud
explants. Biotech. & Biotechnol. Equipment, 26(4): 3094-3099
Zhang H.X., Zhang B.P., Fang C.L., Chen R.K., Luo J.P., Cai W.W. and Liu F.H., 2006, Expression of the
Grifola
Trehalose synthase gene and improvement
of drought tolerance in sugarcane (
Saccharum officinarum
L.). J. Integr. Plant Biol., 48:453-459
1,2,3,4,5,6,7,8,9 11,12
Powered by FlippingBook