Agriculture Reference
In-Depth Information
Duchesne C, Charest J (1991) Transient expression of
β
-glucuronidase gene of embryogenic callus
of
Picea mariana
. Plant Cell Rep 10:191-194
Eichert T, Kurtz A, Steiner U, Goldbach H (2008) Size exclusion limits and lateral heterogeneity
of the stomatal foliar uptake pathway for aqueous solutes and water-suspended nanoparticles.
Physiol Plant 134:151-160
Fernandez V, Eichert T (2009) Uptake of hydrophilic solutes through plant leaves: current state of
knowledge and perspectives of foliar fertilization. Crit Rev Plant Sci 28:36-68
Fleischer M, O
Neill R, Ehwald (1999) The pore size of non-graminaceous plant cell wall is
rapidly decreased by borate ester cross-linking of the pectic polysaccharide rhamnoga-
lacturonan II. Plant Physiol 121:829-838
Francis M, Carrico I (2010) New frontier in protein bioconjugation. Chem Biol 14:771-773
Fukumori Y, Ichikawa H (2006) Nanoparticles for cancer therapy and diagnosis. Adv Powder
Technol 17:1-28
Gade A, Bonde P, Ingle A, Marcato P, Duran N, Rai M (2008) Exploitation of
Aspergillus niger
for
fabrication of silver nanoparticles. J Biobased Mater Bioenergy 2(3):243-247
Gade A, Gaikwad S, Tiwari V, Yadav A, Ingle A, Rai M (2010a) Biofabrication of silver
nanoparticles by
Opuntia ficus
-
indica
: in vitro antibacterial activity and study of mechanism
involved in synthesis. Curr Nanosci 6:370-375
Gade A, Ingle A, Whiteley C, Rai M (2010b) Mycogenic metal nanoparticles: progress and
applications. Biotechnol Lett 32(5):593-600
Gade A, Rai M, Kulkarni S (2011) Phoma sorghina, a phytopathogen mediated synthesis of unique
silver rods. Int J Green Nanotechnol 3(3):153-159
Gade A, Gaikwad S, Duran N, Rai M (2013) Screening of different species of Phoma for the
synthesis of silver nanoparticles. Biotechnol Appl Biochem 60(5):482-493
Gade A, Gaikwad S, Duran N, Rai M (2014) Green synthesis of silver nanoparticles by
Phoma
glomerata
. Micron 59:52-59
Gaertig J, Thatcher T, Gu L, Gorovsky M (1994) Electroporation mediated replacement of a
positively and negatively selectable beta-tubulin gene in
Tetrahymena thermophila
. Proc Natl
Acad Sci U S A 91:4549-4553
Gaikwad S, Birla S, Ingle A, Gade A, Marcato P, Rai M, Duran N (2013a) Screening of different
Fusarium species to select potential species for the synthesis of silver nanoparticles. J Brazil
Chem Soc 24(12):1974-1982
Gaikwad S, Ingle A, Gade A, Rai M, Falanaga A, Incoronato N, Galdiero S, Galdiero M (2013b)
Antiviral activity of mycosynthesized silver nanoparticles against herpes simplex virus and
human parainfluenza virus type 3. Int J Nanomedicine 8:4303-4314
Gajbhiye M, Kesharwani J, Ingle A, Ade A, Rai M (2009) Fungus-mediated synthesis of silver
nanoparticles and their activity against pathogenic fungi in combination with fluconazole.
Nanomed Nanotechnol Biol Med 5:382-386
Garanger E, Aikawa E, Reynolds F, Weissleder R, Josephson L (2008) Simplified syntheses of
complex multifunctional nanomaterials. Chem Commun 4792-4794
Gardea-Torresdey J, Parsons J, Gomez E, Peralta J, Troiani H, Santiago P (2002) Formation and
growth of Au nanoparticles inside live alfalfa plants. Nano Lett 2:397-401
Gardea-Torresdey J, Gomez E, Peralta J, Parsons J, Troiani H, Jose Y (2003) Alfalfa sprouts: a
natural source for the synthesis of silver nanoparticles. Langmuir 19:1357-1361
Ghadiali J, Stevens M (2008) Enzyme-responsive nanoparticle systems. Adv Mater 20:1-5
Ghule K, Ghule A, Liu J, Ling Y (2006) Microscale size triangular gold prisms synthesized using
Bengal gram beans (
Cicer arietinum
L.) extract and HAuCl
4
'
3H
2
O: a green biogenic approach.
J Nanosci Nanotechnol 6:3746-3751
Godoy-hern´ndez G, Avil´s-berzunza E, Carrillo-pech M, V´squez-flota F (2008)
Agrobacterium
-
mediated transient transformation of Mexican prickly poppy (
Argemone mexicana
L.). Elec-
tron J Biotechnol 11:1-5
Gupta A, Bonde S, Gaikwad S, Ingle A, Gade A, Rai M (2013)
Lawsonia inermis
-mediated
synthesis of silver nanoparticles: activity against human pathogenic fungi and bacteria with
