Expression of a stress‐induced hemoglobin affects NO levels produced by alfalfa root cultures under hypoxic stress

Dordas, Christos; Hasinoff, Brian B.; Igamberdiev, Abir U.; Manac′h, Nathalie; Rivoal, Jean; Hill, Robert D.

doi:10.1046/j.1365-313x.2003.01846.x

Cited by 270 publications

(238 citation statements)

References 48 publications

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“…Hanson, P. J., Lindberg, S. E., 1991 Horchani, F., Prevot, M., Boscari, A., Evangelisti, E., Meilhoc, E., 2251 Bruand, C., Raymond, P., Boncompagni, E., Aschi-Smiti, S., Puppo, A., …”

unclassified

A review of soil NO transformation: Associated processes and possible physiological significance on organisms

Medinets

Skiba

Rennenberg

et al. 2015

Soil Biology and Biochemistry

187

106

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The NERC and CEH trademarks and logos ('the Trademarks') are registered trademarks of NERC in the UK and other countries, and may not be used without the prior written consent of the Trademark owner. for atmospheric chemistry. Here we review the current knowledge on 60 processes involved in the formation and consumption of NO in soils, the 61 importance of NO for the physiological functioning of different organisms, 62 and for inter-and intra-species signalling and competition, e.g. in the 63 rooting zone between microbes and plants. We also show that prokaryotes 64 and eukaryotes are able to produce NO by multiple pathways and that 65 unspecific enzymo-oxidative mechanisms of NO production are likely to 66 occur in soils. Nitric oxide production in soils is not only linked to NO 67 production by nitrifying and denitrifying microorganisms, but also linked to 68 extracellular enzymes from a wide range of microorganisms. 69

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“…Hanson, P. J., Lindberg, S. E., 1991 Horchani, F., Prevot, M., Boscari, A., Evangelisti, E., Meilhoc, E., 2251 Bruand, C., Raymond, P., Boncompagni, E., Aschi-Smiti, S., Puppo, A., …”

unclassified

A review of soil NO transformation: Associated processes and possible physiological significance on organisms

Medinets

Skiba

Rennenberg

et al. 2015

Soil Biology and Biochemistry

187

106

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“…NO was shown to interact with Hb from different plant species in a Hb/NO cycle, in which the excess NAD(P)H is oxidized for the conversion of NO into nitrate (Hebelstrup et al 2012;Besson-Bard et al 2008b). When alfalfa plants overexpressing Hb were compared to wild type or to Hb-antisense plants, symptoms of hypoxia were improved, leading to a longer survival of the Hb overexpressors (Dordas et al 2003a). NO emission Igamberdiev et al ( , 2010 and Stoimenova et al (2007) was 2.5-fold higher in Hb-silenced plants compared to Hb overexpressors, suggesting that in plants, Hb is involved in the response to hypoxia through the modulation of NO emission and the loss of N to the atmosphere (Dordas et al 2003a).…”

Section: Nitrite Reduction and Nitric Oxide Productionmentioning

confidence: 99%

“…When alfalfa plants overexpressing Hb were compared to wild type or to Hb-antisense plants, symptoms of hypoxia were improved, leading to a longer survival of the Hb overexpressors (Dordas et al 2003a). NO emission Igamberdiev et al ( , 2010 and Stoimenova et al (2007) was 2.5-fold higher in Hb-silenced plants compared to Hb overexpressors, suggesting that in plants, Hb is involved in the response to hypoxia through the modulation of NO emission and the loss of N to the atmosphere (Dordas et al 2003a). Thus, an additional positive effect of Hb/NO cycle could be to limit N loss under NO emission when oxygen concentration in the medium is close to anoxia (below 0.1 % O 2 ) (Hebelstrup et al 2012).…”

Section: Nitrite Reduction and Nitric Oxide Productionmentioning

confidence: 99%

Nitrogen metabolism in plants under low oxygen stress

Limami

Diab

Lothier

2013

Planta

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“…Capitata), alfalfa (Medicago sativa cv. Regen SY), and petunias, overexpressing VHb can enhance the growth and survival of the plant under hypoxia stress (Dordas et al 2003;Mao et al 2003;Li et al 2005). In microbes, attempts have been made to overcome the problem of limiting oxygen by metabolically engineering bacteria to express the vhb transgene under hypoxic conditions (Patel et al 2000;Nasr et al 2001;So et al 2004;Urgun-Demirtas et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Vitreoscilla Hemoglobin (VHb) Overexpression Increases Hypoxia Tolerance in Zebrafish (Danio rerio)

et al. 2010

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Aquaculture farming may benefit from genetically engineering fish to tolerate environmental stress. Here, we used the vector pCVCG expressing the Vitreoscilla hemoglobin (vhb) gene driven by the common carp β-actin promoter to create stable transgenic zebrafish. The survival rate of the 7-day-old F 2 transgenic fish was significantly greater than that of the sibling controls under 2.5% O 2 (dissolved oxygen (DO), 0.91 mg/l). Meanwhile, we investigated the relative expression levels of several marker genes (hypoxia-inducible factor alpha 1, heat shock cognate 70-kDa protein, erythropoietin, beta and alpha globin genes, lactate dehydrogenase, catalase, superoxide dismutase, and glutathione peroxidase) of transgenic fish and siblings after hypoxia exposure for 156 h. The expression profiles of the vhb transgenic zebrafish revealed that VHb could partially alleviate the hypoxia stress response to improve the survival rate of the fish. These results suggest that that vhb gene may be an efficient candidate for genetically modifying hypoxia tolerance in fish.

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Expression of a stress‐induced hemoglobin affects NO levels produced by alfalfa root cultures under hypoxic stress

Cited by 270 publications

References 48 publications

A review of soil NO transformation: Associated processes and possible physiological significance on organisms

A review of soil NO transformation: Associated processes and possible physiological significance on organisms

Nitrogen metabolism in plants under low oxygen stress

Vitreoscilla Hemoglobin (VHb) Overexpression Increases Hypoxia Tolerance in Zebrafish (Danio rerio)

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