Mukesh Saxena | Jawaharlal Nehru University (original) (raw)
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Papers by Mukesh Saxena
Biomass & Bioenergy, 2005
This paper deals the policy and planning issues for utilization of ethanol and biodiesel in autom... more This paper deals the policy and planning issues for utilization of ethanol and biodiesel in automotive diesel engines in Indian context in view of environmental benefits, energy self-sufficiency and boosting of the rural economy as well as measures related to ...
Biomass & Bioenergy, 2005
This paper deals the policy and planning issues for utilization of ethanol and biodiesel in autom... more This paper deals the policy and planning issues for utilization of ethanol and biodiesel in automotive diesel engines in Indian context in view of environmental benefits, energy self-sufficiency and boosting of the rural economy as well as measures related to ...
Proceedings of The National Academy of Sciences, 2008
Molecular Breeding, 2008
A reproducible and efficient transformation system utilizing the nodal regions of embryonal axis ... more A reproducible and efficient transformation system utilizing the nodal regions of embryonal axis of blackgram (Vigna mungo L. Hepper) has been established via Agrobacterium tumefaciens. This is a report of genetic transformation of Vigna mungo for value addition of an agronomic trait, wherein the gene of interest, the glyoxalase I driven by a novel constitutive Cestrum yellow leaf curling viral promoter has been transferred for alleviating salt stress. The overexpression of this gene under the constitutive CaMV 35S promoter had earlier been shown to impart salt, heavy metal and drought stress tolerance in the model plant, tobacco. Molecular analyses of four independent transgenic lines performed by PCR, Southern and western blot revealed the stable integration of the transgene in the progeny. The transformation frequency was ca. 2.25% and the time required for the generation of transgenic plants was 10–11 weeks. Exposure of T1 transgenic plants as well as untransformed control plants to salt stress (100 mM NaCl) revealed that the transgenic plants survived under salt stress and set seed whereas the untransformed control plants failed to survive. The higher level of Glyoxalase I activity in transgenic lines was directly correlated with their ability to withstand salt stress. To the best of our knowledge this is the only report of engineering abiotic stress tolerance in blackgram.
Protein Expression and Purification, 2007
Plant Cell Tissue and Organ Culture, 2008
Despite the advances in transgenesis, transformation technologies still rely on the introduction ... more Despite the advances in transgenesis, transformation technologies still rely on the introduction of a selectable marker gene to identify cells and tissues that have integrated the gene of interest in their genome. The continuous presence of the marker genes in the transgenics is often controversial as it can potentially have multiple undesirable impacts. The present study employed the self-excising Cre-loxP system to generate marker-free Arabidopsis thaliana expressing the agronomically important glyoxalase I (glyI) gene from Brassica juncea to confer salt stress tolerance. A binary vector was constructed wherein the salt-inducible rd29A promoter was used to drive the expression of the glyI gene and the transformants of A. thaliana were recovered using kanamycin resistance as the selectable marker. The neomycin phosphotransferase II (nptII) gene was flanked by the loxP sites followed by the introduction of a heat-inducible Cre-recombinase in between the loxP sites. The kanamycin-resistant transgenic lines of A. thaliana using this vector showed an ability to withstand stress imposed by 150 mM NaCl. The exposure of the T2 transgenic lines to a mild heat shock (37°C) resulted in the recovery of salt-tolerant, kanamycin-sensitive T3 progeny. Molecular analyses of the T3 transgenic lines following the heat shock treatment confirmed the excision of the nptII gene and the completion of their life cycle in the presence of 150 mM NaCl-induced stress.
Biochemical and Biophysical Research Communications, 2005
Biomass & Bioenergy, 2005
This paper deals the policy and planning issues for utilization of ethanol and biodiesel in autom... more This paper deals the policy and planning issues for utilization of ethanol and biodiesel in automotive diesel engines in Indian context in view of environmental benefits, energy self-sufficiency and boosting of the rural economy as well as measures related to ...
Biomass & Bioenergy, 2005
This paper deals the policy and planning issues for utilization of ethanol and biodiesel in autom... more This paper deals the policy and planning issues for utilization of ethanol and biodiesel in automotive diesel engines in Indian context in view of environmental benefits, energy self-sufficiency and boosting of the rural economy as well as measures related to ...
Proceedings of The National Academy of Sciences, 2008
Molecular Breeding, 2008
A reproducible and efficient transformation system utilizing the nodal regions of embryonal axis ... more A reproducible and efficient transformation system utilizing the nodal regions of embryonal axis of blackgram (Vigna mungo L. Hepper) has been established via Agrobacterium tumefaciens. This is a report of genetic transformation of Vigna mungo for value addition of an agronomic trait, wherein the gene of interest, the glyoxalase I driven by a novel constitutive Cestrum yellow leaf curling viral promoter has been transferred for alleviating salt stress. The overexpression of this gene under the constitutive CaMV 35S promoter had earlier been shown to impart salt, heavy metal and drought stress tolerance in the model plant, tobacco. Molecular analyses of four independent transgenic lines performed by PCR, Southern and western blot revealed the stable integration of the transgene in the progeny. The transformation frequency was ca. 2.25% and the time required for the generation of transgenic plants was 10–11 weeks. Exposure of T1 transgenic plants as well as untransformed control plants to salt stress (100 mM NaCl) revealed that the transgenic plants survived under salt stress and set seed whereas the untransformed control plants failed to survive. The higher level of Glyoxalase I activity in transgenic lines was directly correlated with their ability to withstand salt stress. To the best of our knowledge this is the only report of engineering abiotic stress tolerance in blackgram.
Protein Expression and Purification, 2007
Plant Cell Tissue and Organ Culture, 2008
Despite the advances in transgenesis, transformation technologies still rely on the introduction ... more Despite the advances in transgenesis, transformation technologies still rely on the introduction of a selectable marker gene to identify cells and tissues that have integrated the gene of interest in their genome. The continuous presence of the marker genes in the transgenics is often controversial as it can potentially have multiple undesirable impacts. The present study employed the self-excising Cre-loxP system to generate marker-free Arabidopsis thaliana expressing the agronomically important glyoxalase I (glyI) gene from Brassica juncea to confer salt stress tolerance. A binary vector was constructed wherein the salt-inducible rd29A promoter was used to drive the expression of the glyI gene and the transformants of A. thaliana were recovered using kanamycin resistance as the selectable marker. The neomycin phosphotransferase II (nptII) gene was flanked by the loxP sites followed by the introduction of a heat-inducible Cre-recombinase in between the loxP sites. The kanamycin-resistant transgenic lines of A. thaliana using this vector showed an ability to withstand stress imposed by 150 mM NaCl. The exposure of the T2 transgenic lines to a mild heat shock (37°C) resulted in the recovery of salt-tolerant, kanamycin-sensitive T3 progeny. Molecular analyses of the T3 transgenic lines following the heat shock treatment confirmed the excision of the nptII gene and the completion of their life cycle in the presence of 150 mM NaCl-induced stress.
Biochemical and Biophysical Research Communications, 2005