Genomics and Applied Biology, 2017, Vol.8, No.1, 1-7
6
Ijaz S., Rana I.A.., Khan I.A., Saleem M., 2012, Establishment of an in vitro regeneration system for genetic transformation of selected sugarcane genotypes,
Genet. and Mol. Res., 11(1): 512-530
Jahangir G.Z. and Nasir I.A., 2010, Various hormonal supplementations activate sugarcane regeneration
in-vitro
. J. Agril. Sci., 2(4): 231-237
Joyce P., Kuwahata M., Turner N. and Lakshmanan P., 2010, Selection system and co-cultivation medium are important determinants of
Agrobacterium
-mediated transformation of sugarcane. Plant Cell Rep., 29: 173-183
Kaur A., Gill M.S., Ruma D. and Gosal S.S., 2008, Enhanced in vitro shoot multiplication and elongation in sugarcane using cefotaxime. Sugar Tech., 10(1):
60-64. 1 0: 60
Khan I.A., Khatri A., Nizamani G.S., Siddiqui M.A., Khanzada M.H., Dahar N.A., Seema N. and Naqvi M.H., 2004,
In-vitro
culture studies in sugarcane. Pak. J.
Biotech., 1(1) 6-10
Khan S.A., Hanif Z., Irshad U., and Rashid H., 2013, Genetic transformation of sugarcane variety HSF-240 with marker gene GUS. Int. J. Agric. and Biol.,
15:1258-1264
Khaliq A., Ashfaq M., Akram W., Choi J.K., Lee J., 2005, Effect of plant factors, sugar contents, and control methods on the Top Borer (
Scirpophaga nivella
F.)
infestation in selected varieties of sugarcane. Entomol. Res., 35:153-160
Khamrit R, Jaisil P. and Bunnag S., 2012, Callus induction, regeneration and transformation of sugarcane (
Saccharum officinarum
L.) with chitinase gene using
particle bombardment. Afr. J. Biotechnol., 11(24): 6612-6618
Kumar T., Uzma, Khan M.R., Abbas Z., Ghulam M., Ali G.M., 2013, Genetic improvement of sugarcane for drought and salinity stress tolerance using
Arabidopsis
Vacuolar Pyrophosphatase(AVP1) gene, Mol. Biotechnol., 56:199-209
Kumar T., Khan M.R., Jan S.A., Ahmad N., Ali N., Zia M.A., Roomi S., Iqbal A. and Ali G.M., 2014, Efficient regeneration and genetic transformation of
sugarcane with AVP1 gene. American-Eurasian J. Agric. & Environ. Sci., 14 (2): 165-171, doi: 10.5829/idosi.aejaes.2014.14.02.12304
Manickavasagam M., Ganapathi A., Anbazhagan V.R., Sudhakar B., Selvaraj N., Vasudevan A., Kasthurirengan S., 2004,
Agrobacterium
-mediated genetic
transformation and development of herbicide-resistant sugarcane (
Saccharum
species hybrids) using axillary buds. Plant Cell Rep., 23(3):134-143
Mamun M.A., Sikdar M.B.H., Paul Dipak Kumar, Rahman M., Mizanur, 2004,
In vitro
micropropagation of some important sugarcane varieties of Bangladesh.
Asian J. Plant Sci, 3 (6): 666-669
Mayavan S., Subramanyam K., Arun M., Rajesh M., Kapil Dev G., Sivanandhan G., Jaganath B., Manickavasagam,M., Selvaraj N. and Ganapathi A., 2013,
Agrobacterium
tumefaciens
-mediated in planta seed transformation strategy in sugarcane. Plant Cell Rep., 32(10):1557-74
McQualter R.B., and Dookun-Saumtally A., 2007, Expression profiling of abiotic-stress-inducible genes in sugarcane. Proc. Aust. Soc. Sugar Cane Technol., 29:
878-888
Ming R., Moore P. H., Woo K. K., D’Hont A., Glaszmann J. C., Tew T. L., Mirkov T. E., Silva J. D., Jifon J., Rai M., Schnell R. J., Brumbley S. M.,
Lakshmanan P., Comstock J. C. and Paterson,A. H., 2006, Sugarcane improvement through breeding and biotechnology. Plant Breed. Rev., 27:17-117
Mittal P., Devi R. and Gosal S.S., 2016, Effect of genotypes and activated charcoal on high frequency in vitro plant regeneration in sugarcane. Indian J. Biotech.,
15: 261-265
Mitchell H.J., 2011, Regulation of genetically modified (gm) sugarcane in Australia. Proc. Aust. Soc. Sugarcane Technol., 33: 1-8
Molinari H.B.C., Marur C.J., Daros E., Campos M.K.F., Carvalho J.F.R.P., Filho J.C.B., Pereira L.F.P. and Vieira L.G.E., 2007, Evaluation of the
stress-inducible production of proline in transgenic sugarcane (
Saccharum
spp.): osmotic adjustment, chlorophyll fluorescence and oxidative stress.
Physiol. Plantarum, 130: 218-229
Nasir N.M., Qureshi R.H. and Aslam M., 2000, Effect of salinity on emergence of sugarcane lines. Pak. Sugar J., 15: 12-14
Naz S., Ali A. and Siddique A. 2008, Somatic embryogenesis and plantlet formation in different varieties of sugarcane (
Sacchrum officinarum
L.) HSF-243 and
HSF-245. Sarhad J. Agric., 24(4): 593-598
OGTR., 2004, DIR 051/2004 – Field trial of genetically modified (GM) sugarcane expressing sucrose isomerase
Panti N.C., 2016, Paclobutrazol (PBZ)-Cultar regulator in sugarcane: The effect of different PBZ-Cultar concentrations on sugarcane (
Saccharum
) of variety
CPCL99-4455, A Thesis Submitted to the University of Belize in Fulfillment of BIOL 4992 - Independent Research, 2016
Patel V.S., Mehta R., Naik K.H., Singh D., Patel D.U. and Mali S.C., 2015, Callus induction & whole plant regeneration in sugarcane (
Saccharum
spp. complex)
variety Co 86032. Green Farming, 6 (5): 935-939
Pillay E., 2013,
In vitro
culture and genetic transformation of selected ancestral and commercial sugarcane germplasm. Dissertation submitted for the degree of
Master of Science in the School of Life Science, University of KwaZulu-Natal, Durban, South Africa
Rakoczy-Trojanowska M., 2002, Alternative methods of plant transformation -A short review, Cellular & Mol. Biol. Letters, 7: 849- 858